CN218942403U - Portable sports sole and sports shoes - Google Patents

Abstract

The utility model discloses a portable sports shoe and a sports sole, wherein the sports sole comprises an outsole, a midsole and a first supporting part, and the soles are distributed with a first anti-slip part and a second anti-slip part before and after the outsole touches the ground; the open end of the first through groove formed in the first anti-slip part, the open end of the second through groove formed in the second anti-slip part and the supporting area formed by the first anti-slip part and the second anti-slip part at intervals form a communication area together so as to accommodate the first support; the midsole comprises a first outer ring part, a second outer ring part and a second supporting part, wherein a plurality of third strip-shaped bulges are arranged on the surface of the second supporting part, and a plurality of first strip-shaped bulges and a plurality of second strip-shaped bulges are arranged on the surface of the second outer ring part. According to the utility model, the supporting part and the anti-slip groove are arranged on the outsole, so that the weight of the sole can be reduced while the functional part of the sole is not increased, the anti-slip and supporting functions of the sole are ensured, and the athletic performance of a sportsman is improved.

Description

Portable sports sole and sports shoes

Technical Field

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

Background

Shoes are indispensable articles for daily use in people's daily life, and the sole is the most important part of a pair of shoes, and it not only plays the most important guard action, and elasticity, skid resistance and the comfort level of shoes all depend on sole's structure and material.

The soles of the existing sports shoes are mostly made of MD, RB, EVA and other materials in a multi-layer bonding or single-layer solid structure, so that the soles have certain flexibility and elasticity to play a role in shock absorption, or the soles are directly arranged into shock absorption structures, so that the impact force in the sports process is relieved. However, there are different demands on the performance of the sports shoe in different sports environments, for example, the need for portability and wear resistance of the sports shoe is primary in marathon games and the need for support performance of the sports shoe is primary in hiking off-road environments. Such improvements have limited effectiveness if cushioning is provided by shock absorbing, shock absorbing structures, or by material selection to change the weight of the sole.

Disclosure of Invention

The utility model mainly solves the technical problem of providing a portable sports sole and a sports shoe, which can improve the comfort of a sole body in the walking or sports process of a sportsman.

In order to solve the technical problems, the utility model adopts a technical scheme that: a portable sports shoe sole, comprising an outsole, a midsole and a first supporting part, wherein the outsole is connected to the lower surface of the midsole, and the first supporting part is connected to the lower surface of the midsole; the outsole includes: the first anti-skid part is arranged on the ground contact surface of the outsole and covers the area corresponding to the front sole; the first anti-slip part is provided with a first through groove, one end of the first through groove, which is close to the toe area, is closed, and one end of the first through groove, which is close to the arch area, is open; the second anti-skid part is arranged on the ground contact surface of the outsole and covers the area corresponding to the heel; wherein the first and second anti-slip portions are spaced apart from each other by a predetermined distance to form a support region; a second through groove is formed in the second anti-skid part, one end of the second through groove, which is close to the heel area, is closed, and one end of the second through groove, which is close to the arch area, is open; wherein, one end of the first through groove, one end of the second through groove and the supporting area form a communicated area together, and the first supporting part correspondingly covers the communicated area; the midsole comprises: the second supporting part is arranged on the upper surface of the outsole and corresponds to the position of the heel edge; the surface of the second supporting part is provided with a plurality of third strip-shaped bulges, and each third strip-shaped bulge takes the position of the second supporting part corresponding to the center point of the edge of the heel as a starting point, is distributed to the inner side and the outer side of the heel along the surface of the second supporting part and is ended at the first outer ring part; the first outer ring part is arranged on the upper surface of the outsole and surrounds the edge of the outsole; the second outer ring part is arranged above the edge of the first outer ring part, and the area covered by the edge from the front sole to the arch is arranged on the first outer ring part; the surface of the second outer ring part is provided with a plurality of first strip-shaped bulges and a plurality of second strip-shaped bulges, each first strip-shaped bulge extends from the toe position to the arch direction and is distributed on the area covered by the corresponding front sole edge of the second outer ring part side by side, and each second strip-shaped bulge extends from the arch position to the toe direction and is distributed on the area covered by the corresponding arch edge of the second outer ring part side by side.

The inner surface of the first through groove is provided with a plurality of first grooves, the first grooves are rectangular in shape, and each first groove is distributed on two sides of the first central axis in sequence in a mode of forming a preset angle a with the first central axis of the first through groove; the size of the first groove gradually increases when the first groove is distributed from one end close to the toe area to one end close to the arch area; the first central axis is a straight line which equally divides the first through groove into two areas with the same area along the extending direction of the first through groove; the inner surface of the second through groove is provided with a plurality of second grooves, the second grooves are rectangular in shape, and each second groove is distributed on two sides of the second central axis in sequence in a mode of forming a preset angle b with the second central axis of the second through groove; the second grooves gradually increase in size as they are distributed from one end near the heel region to one end near the arch region; the second central axis is a straight line which equally divides the second through groove into two areas with the same area along the extending direction of the second through groove.

The first groove and the second groove are positioned on the same horizontal plane at the outer edges of the ground contact ends formed by the first through groove and the second through groove.

Wherein, the ground contact surface of the first anti-skid part is also provided with a plurality of third grooves which are distributed in a similar matrix; wherein each third groove has a shape similar to a rectangular shape and substantially the same size; each third groove is distributed in a direction parallel to the extending direction from the toe to the arch; the ground contact surface of the second anti-skid part is also provided with a plurality of fourth grooves which are distributed in a similar matrix; wherein each of the fourth grooves has an approximately rectangular shape and substantially the same size; each fourth groove is distributed in a direction parallel to the extending direction from the toe to the arch.

Wherein, the ground contact surface of the supporting area is also provided with a plurality of fifth grooves which are distributed in a similar matrix; wherein each fifth groove has a shape similar to a rectangular shape and substantially the same size; each fifth groove is distributed in a direction parallel to the extending direction from the toe to the arch.

The third groove, the fourth groove and the fifth groove are distributed on the first outsole, the second outsole and the supporting area to form the outer edges of the ground contact ends which are basically positioned on the same horizontal plane.

Each first strip-shaped protrusion takes the toe position as a starting point, extends and distributes to the edge of the first outer ring part towards the arch direction respectively, and when the first strip-shaped protrusions are distributed in sequence from the direction close to the toe position to the direction close to the arch position, the lengths of the first strip-shaped protrusions gradually increase, a preset included angle a is formed between two adjacent first strip-shaped protrusions, wherein 0< a <90 degrees, and a is a natural number; each second strip-shaped bulge takes the end position of the second outer ring part, which is close to one side of the arch of foot, as a starting point, and extends and distributes to the first strip-shaped bulge at the uppermost part to finish the direction of the arch of foot, when the second strip-shaped bulges are distributed in sequence from the starting point, which is close to the position of the arch of foot, to the direction, which is close to the position of the arch of foot, the length of each second strip-shaped bulge is gradually increased, a preset included angle b is formed between two adjacent second strip-shaped bulges, wherein 0< b <90 degrees, and b is a natural number; the size of each third strip-shaped bulge is different, when the third strip-shaped bulges are sequentially distributed from the position of the second supporting part corresponding to the central point of the heel edge to the direction close to the arch of foot, the lengths of the third strip-shaped bulges are gradually increased, and a preset included angle c is formed between every two adjacent third strip-shaped bulges, wherein 0< c <90 degrees, and c is a natural number.

In order to solve the technical problems, the utility model adopts another technical scheme that: a portable sports shoe comprises a shoelace and a vamp closely attached to the lower side of the shoelace; the shoe comprises a shoe upper, a shoe sole, a shoelace, a shoe tongue and a sport sole, wherein the shoe upper is reserved in the shoe upper, the shoelace penetrates through the shoe upper, and the upper is tightly attached to the lower side of the shoe upper.

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

Wherein the vamp is a mesh surface manufactured by a tatting process; the heel is a region with hardness larger than that of the net surface material of the vamp by adding net cloth to the net surface lining layer; the front piece is formed by adding mesh cloth on the mesh surface lining layer so as to form a region with hardness larger than that of the mesh surface material of the vamp.

According to the portable sports shoe and the sports sole provided by the embodiment of the utility model, the first anti-skid part and the second anti-skid part are arranged on the outsole, and the strip-shaped grooves distributed side by side are arranged on the first anti-skid part and the second anti-skid part so as to form anti-skid textures on the ground, so that the anti-skid performance of the sole can be enhanced, and the sole can generate friction force in all directions along with various actions of feet of a sportsman. Meanwhile, the ground contact surface of the first supporting part is also provided with a plurality of strip-shaped grooves which are distributed in a matrix manner, so that anti-skid textures are formed on the ground contact surface of the first supporting part, and the anti-skid performance of the sole can be further enhanced while the sole is stabilized. Therefore, the supporting part and the anti-slip groove are arranged on the outsole through dividing areas, the anti-slip and supporting functions of the sole are ensured while the functional part of the sole is not increased, the weight of the sole can be lightened, and the athletic performance of a sportsman is improved.

Drawings

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

FIG. 2 is a schematic lateral side view of a lightweight athletic sole in accordance with an embodiment of the present utility model;

FIG. 3 is a schematic medial side view of a lightweight athletic sole in accordance with an embodiment of the utility model;

FIG. 4 is a schematic lateral side view of a lightweight athletic shoe according to an embodiment of the present utility model;

fig. 5 is a schematic view showing a medial structure of a lightweight sports shoe according to an embodiment of the present utility model.

Detailed Description

The prior art nouns to which the present utility model relates are explained first as follows.

The MD sole is also called a PHYLON sole, commonly called a flying dragon, so that the burden of feet can be reduced, and the material is soft, good in elastic effect and good in shockproof effect, but when the MD sole encounters high temperature, the shoe is easy to shrink and can be wrinkled.

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

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

Referring to fig. 1 to 3, a schematic structure of a portable sports shoe sole according to an embodiment of the present utility model is shown.

Thesports shoe sole 100 comprises anoutsole 1, amidsole 2 and a first supportingpart 3; themidsole 2 is connected to the upper surface of theoutsole 1, and the first supportingportion 3 is connected to the lower portion of themidsole 2. In this embodiment, theoutsole 1 is made of abrasion-resistant rubber; the midsole is made of TPU material.

Theoutsole 1 comprises a firstanti-skid part 11 and a secondanti-skid part 12; the firstanti-skid part 11 is arranged on the ground contact surface of theoutsole 1 and covers the area corresponding to the front sole, and the secondanti-skid part 12 is arranged on the ground contact surface of theoutsole 1 and covers the area corresponding to the heel; the firstanti-slip part 11 and the secondanti-slip part 12 are not connected and are spaced apart from each other by a predetermined distance to form asupport area 13.

Specifically, a first throughgroove 110 is formed in the firstanti-slip portion 11, where an end of the first throughgroove 110 near the toe region is closed, and an end near the arch region is open; a second throughgroove 120 is formed in the secondanti-slip part 12, wherein one end of the second throughgroove 120 close to the heel area is closed, and one end close to the arch area is open; the open end of the first throughgroove 110 and the open end of the second throughgroove 120 together with thesupport area 13 form a communicating area, and thefirst support part 3 covers the communicating area correspondingly.

In the present embodiment, thefirst support part 3 is made of a carbon plate material.

Further, the first throughgroove 110 is provided with a plurality offirst grooves 1100 on the inner surface, the second throughgroove 120 is provided with a plurality ofsecond grooves 1200 on the inner surface, and the first supportingportion 3 is accommodated in the supportingarea 13. Specifically, the shapes of thefirst grooves 1100 and thesecond grooves 1200 are rectangular, eachfirst groove 1100 is disposed at a preset angle a with the first central axis A-A of the first throughgroove 110, and is disposed at two sides of the first central axis A-A in turn, and similarly, eachsecond groove 1200 is disposed at two sides of the second central axis B-B in turn, with the second central axis B-B of the second throughgroove 120, in a preset angle B; the first central axis A-A is a straight line which equally divides the first throughslot 110 into two areas with the same area along the extending direction of the first throughslot 110, and the second central axis B-B is a straight line which equally divides the second throughslot 120 into two areas with the same area along the extending direction of the second throughslot 120. Thefirst grooves 1100 each have a different size, and thefirst grooves 1100 gradually increase in size as they are distributed from one end near the toe region to one end near the arch region; thesecond grooves 1200 each have a different size, and thesecond grooves 1200 gradually increase in size as they are distributed from one end near the heel region to one end near the arch region.

In this embodiment, the outer edges of the ground contact ends of the first andsecond grooves 1100, 1200 formed in the first and second throughgrooves 110, 120 are substantially located at the same horizontal plane.

As described above, thefirst support portion 3 is provided on theoutsole 1 to communicate with the forefoot region, the arch region, and the heel region, and thefirst support portion 3 can stabilize the sole during the sports of the athlete, so as to prevent the sole from being bent excessively and in any direction when the foot of the athlete makes various motions, thereby bringing about the problem of foot injury risk. Further, the inner surfaces of the first throughgroove 110 and the second throughgroove 120 are further provided with a plurality of grooves, and the grooves are arranged one by one in a direction facing the central axis of the corresponding first throughgroove 100/second throughgroove 120, so that the stability of the first supportingportion 3 can be further enhanced, and the bending tendency caused by the compliant movement can be generated after the bending is generated along with the action of the foot, and on the other hand, certain stability and rebound resilience can be maintained during bending.

The ground contact surface of the firstanti-slip part 11 is further provided with a plurality ofthird grooves 111 arranged in an approximate matrix, and the ground contact surface of the secondanti-slip part 12 is further provided with a plurality offourth grooves 121 arranged in an approximate matrix.

In the present embodiment, the shape of each of thethird groove 111 and thefourth groove 121 is approximately rectangular, and the dimensions are substantially the same; thethird groove 111 and thefourth groove 121 are located at the same horizontal plane at the outer edge of the ground contact end formed by thefirst outsole 11 and thesecond outsole 12. Further, each of thethird grooves 111 and thefourth grooves 121 is distributed in a direction parallel to the extending direction from the toe to the arch.

Further, the ground contact surface of the supportingarea 13 further distributes a plurality offifth grooves 130 arranged in an approximate matrix; in the present embodiment, each of thefifth grooves 130 has an approximately rectangular shape and substantially the same size; thethird groove 111, thefourth groove 121, and thefifth groove 130 are distributed on thefirst outsole 11, thesecond outsole 12, and the outer edges of the ground contact ends formed on the supportingarea 13 are located on the same horizontal plane. Further, each of thefifth grooves 130 is distributed in a direction parallel to the extending direction of the toe to the arch.

As described above, theoutsole 1 is provided with the firstanti-slip portion 11 and the secondanti-slip portion 12, and the firstanti-slip portion 11 and the secondanti-slip portion 12 are provided with the strip grooves distributed side by side to form the anti-slip texture on the ground, so that the anti-slip performance of the sole can be enhanced, and the sole can generate friction force in all directions when the sole makes various actions along with the feet of the athlete. Meanwhile, the ground contact surface of the first supportingpart 3 is also provided with a plurality of strip-shaped grooves which are distributed in a matrix manner, so that anti-skid textures are formed on the ground contact surface of the first supportingpart 3, and the anti-skid performance of the sole can be further enhanced while the sole is stabilized. Therefore, the sole 1 is provided with the supporting parts and the anti-slip grooves in a region dividing manner, so that the anti-slip and supporting functions of the sole are ensured while the functional parts of the sole are not increased, the weight of the sole can be lightened, and the athletic performance of a sportsman is improved.

Themidsole 2 includes a firstouter ring portion 21, a secondouter ring portion 22, and asecond support portion 23; wherein the second supportingpart 23 is arranged on the upper surface of theoutsole 1 and is arranged corresponding to the position of the heel edge; the firstouter ring part 22 is arranged on the upper surface of theoutsole 1 and is arranged around the edge of theoutsole 1; the secondouter ring portion 22 is disposed along an upper edge of the firstouter ring portion 22, and is disposed on the firstouter ring portion 21 corresponding to a region covered from the forefoot to the arch.

Further, a plurality of first strip-shaped protrusions 220 and a plurality of second strip-shaped protrusions 221 are disposed on the surface of the secondouter ring portion 22; each of the first strip-shaped protrusions 210 extends from the toe position toward the arch direction and is distributed on the area covered by the corresponding front sole edge of the secondouter ring portion 22, and each of the second strip-shaped protrusions 220 extends from the arch position toward the arch direction and is distributed on the area covered by the corresponding arch edge of the secondouter ring portion 22. In this embodiment, each first strip-shaped protrusion 210 starts from the toe position and extends to the edge of the firstouter ring portion 21 in the arch direction, the size of each first strip-shaped protrusion 210 is different, when the first strip-shaped protrusions 210 are distributed in sequence from the direction close to the toe position to the direction close to the arch position, the length of each first strip-shaped protrusion 210 is gradually increased, and a preset included angle a is formed between two adjacent first strip-shaped protrusions 210, wherein 0< a <90 °, and a is a natural number. In this embodiment, each second strip-shaped protrusion 220 takes the end position of the secondouter ring 22 near the arch as a starting point, extends and distributes towards the toe direction to the first strip-shaped protrusion 210 located at the top, and ends with different dimensions, when the second strip-shaped protrusions 220 are distributed in sequence from the starting point near the arch to the direction near the toe, the length of each second strip-shaped protrusion 220 gradually increases, and a preset included angle b is formed between two adjacent second strip-shaped protrusions 220, wherein 0< b <90 °, and b is a natural number.

The surface of the second supportingportion 23 is provided with a plurality of third strip-shaped protrusions 230, and each third strip-shaped protrusion 230 is distributed along the surface of the second supportingportion 23 to the inner side and the outer side of the heel from the position of the second supportingportion 23 corresponding to the center point of the edge of the heel, and ends at the firstouter ring portion 21. In this embodiment, the dimensions of each third strip-shaped protrusion 230 are different, and when the third strip-shaped protrusions 230 are sequentially distributed from the position of thesecond support portion 23 corresponding to the center point of the heel edge to the direction close to the arch, the lengths of the third strip-shaped protrusions 230 gradually increase, and a preset included angle c is formed between two adjacent third strip-shaped protrusions 230, wherein 0< c <90 °, and c is a natural number.

As described above, the secondouter ring portion 22 having the strip-shaped protrusions 210 is provided corresponding to the forefoot region, and thesecond support portion 23 having the strip-shaped protrusions 230 is provided corresponding to the heel region, thereby forming a parallel support region in the forefoot and heel regions to satisfy the force tendency of the athlete to strike the sole during the exercise, thereby playing a role of precisely supporting, and satisfying the buffering and rebound functions of the reaction force generated by the athlete during the heel strike during the exercise, thereby protecting the athlete's foot.

Please refer to fig. 4-5, which are schematic diagrams of a portable sports shoe according to an embodiment of the present utility model.

Thesports shoe 200 comprises ashoelace 41, wherein the lower side of theshoelace 41 is tightly attached with anvamp 42, aneyelet button 43 is reserved in thevamp 42, theshoelace 41 is connected with the inside of theeyelet button 43 in a penetrating way, and the lower side of thevamp 42 is tightly attached with the upper side of atongue 44.

The front side of thevamp 42 is fixedly connected with afront sheet 421, and anet surface 422 is sewn and fixed in thefront sheet 421; aheel 423 is fixedly coupled to a rear side of the upper 42.

In this embodiment, thevamp 42 is a mesh surface made by a tatting process; theheel 423 is formed by adding mesh to the mesh backing to form a region of greater stiffness than the mesh material from which the upper 42 is formed. Similarly, thefront sheet 421 is formed by adding mesh to the mesh backing layer to form a region of greater stiffness than the mesh material from which the upper 42 is formed.

In this embodiment, thesports shoe 200 is a marathon running shoe, and is specifically used for marathon sports.

According to the utility model, the outsole is provided with the first anti-skid part and the second anti-skid part, and the first anti-skid part and the second anti-skid part are respectively provided with the strip grooves which are distributed side by side so as to form anti-skid textures on the ground, so that the anti-skid performance of the sole can be enhanced, and the sole can generate friction force in all directions along with various actions of feet of a sportsman. Meanwhile, the ground contact surface of the first supporting part is also provided with a plurality of strip-shaped grooves which are distributed in a matrix manner, so that anti-skid textures are formed on the ground contact surface of the first supporting part, and the anti-skid performance of the sole can be further enhanced while the sole is stabilized. Therefore, the supporting part and the anti-slip groove are arranged on the outsole through dividing areas, the anti-slip and supporting functions of the sole are ensured while the functional part of the sole is not increased, the weight of the sole can be lightened, and the athletic performance of a sportsman 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. A portable sports shoe sole, comprising an outsole, a midsole and a first supporting part, wherein the outsole is connected to the lower surface of the midsole, and the first supporting part is connected to the lower surface of the midsole; the outsole is characterized by comprising:

the first anti-skid part is arranged on the ground contact surface of the outsole and covers the area corresponding to the front sole; the first anti-slip part is provided with a first through groove, one end of the first through groove, which is close to the toe area, is closed, and one end of the first through groove, which is close to the arch area, is open;

the second anti-skid part is arranged on the ground contact surface of the outsole and covers the area corresponding to the heel; wherein the first and second anti-slip portions are spaced apart from each other by a predetermined distance to form a support region; a second through groove is formed in the second anti-skid part, one end of the second through groove, which is close to the heel area, is closed, and one end of the second through groove, which is close to the arch area, is open;

wherein, one end of the first through groove, one end of the second through groove and the supporting area form a communicated area together, and the first supporting part correspondingly covers the communicated area;

the midsole comprises:

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

the second supporting part is arranged on the upper surface of the outsole and corresponds to the position of the heel edge; the surface of the second supporting part is provided with a plurality of third strip-shaped bulges, and each third strip-shaped bulge takes the position of the second supporting part corresponding to the center point of the edge of the heel as a starting point, is distributed to the inner side and the outer side of the heel along the surface of the second supporting part and is ended at the first outer ring part; and

the second outer ring part is arranged above the edge of the first outer ring part, and is arranged on the first outer ring part corresponding to the area covered from the front sole to the arch edge; the surface of the second outer ring part is provided with a plurality of first strip-shaped bulges and a plurality of second strip-shaped bulges, each first strip-shaped bulge extends from the toe position to the arch direction and is distributed on the area covered by the corresponding front sole edge of the second outer ring part side by side, and each second strip-shaped bulge extends from the arch position to the toe direction and is distributed on the area covered by the corresponding arch edge of the second outer ring part side by side.

2. The portable sports shoe sole according to claim 1, wherein the inner surface of the first through groove is provided with a plurality of first grooves, the first grooves are rectangular in shape, and each first groove is distributed on two sides of the first central axis in sequence in a mode of forming a preset angle a with the first central axis of the first through groove; the size of the first groove gradually increases when the first groove is distributed from one end close to the toe area to one end close to the arch area; the first central axis is a straight line which equally divides the first through groove into two areas with the same area along the extending direction of the first through groove;

the inner surface of the second through groove is provided with a plurality of second grooves, the second grooves are rectangular in shape, and each second groove is distributed on two sides of the second central axis in sequence in a mode of forming a preset angle b with the second central axis of the second through groove; the second grooves gradually increase in size as they are distributed from one end near the heel region to one end near the arch region; the second central axis is a straight line which equally divides the second through groove into two areas with the same area along the extending direction of the second through groove.

3. The portable athletic shoe sole of claim 2, wherein the first groove and the second groove are substantially co-located at a ground engaging end periphery defined by the first channel and the second channel.

4. The portable athletic shoe sole of claim 1, wherein the ground contact surface of the first cleat further comprises a plurality of third grooves arranged in a substantially matrix arrangement; wherein each third groove has a shape similar to a rectangular shape and substantially the same size; each third groove is distributed in a direction parallel to the extending direction from the toe to the arch;

the ground contact surface of the second anti-skid part is also provided with a plurality of fourth grooves which are distributed in a similar matrix; wherein each of the fourth grooves has an approximately rectangular shape and substantially the same size; each fourth groove is distributed in a direction parallel to the extending direction from the toe to the arch.

5. The portable athletic shoe sole of claim 4, wherein the ground-contacting surface of the support area further comprises a plurality of fifth grooves arranged in an approximately matrix; wherein each fifth groove has a shape similar to a rectangular shape and substantially the same size; each fifth groove is distributed in a direction parallel to the extending direction from the toe to the arch.

6. The portable athletic shoe sole of claim 5, wherein the third groove, the fourth groove, and the fifth groove are disposed on the first cleat, the second cleat, and the support area to form a ground engaging outer edge substantially in the same horizontal plane.

7. The portable sports shoe sole according to claim 1, wherein each of the first strip-shaped protrusions starts from a toe position, extends and distributes to the edge of the first outer ring portion in the arch direction, and ends from the toe position to the arch position, and when the first strip-shaped protrusions are distributed in sequence from the toe position to the arch position, the lengths of the first strip-shaped protrusions gradually increase, a preset included angle a is formed between two adjacent first strip-shaped protrusions, wherein 0< a <90 °, and a is a natural number;

each second strip-shaped bulge takes the end position of the second outer ring part, which is close to one side of the arch of foot, as a starting point, and extends and distributes to the first strip-shaped bulge at the uppermost part to finish the direction of the arch of foot, when the second strip-shaped bulges are distributed in sequence from the starting point, which is close to the position of the arch of foot, to the direction, which is close to the position of the arch of foot, the length of each second strip-shaped bulge is gradually increased, a preset included angle b is formed between two adjacent second strip-shaped bulges, wherein 0< b <90 degrees, and b is a natural number;

the size of each third strip-shaped bulge is different, when the third strip-shaped bulges are sequentially distributed from the position of the second supporting part corresponding to the central point of the heel edge to the direction close to the arch of foot, the lengths of the third strip-shaped bulges are gradually increased, and a preset included angle c is formed between every two adjacent third strip-shaped bulges, wherein 0< c <90 degrees, and c is a natural number.

8. A portable sports shoe comprises a shoelace and a vamp closely attached to the lower side of the shoelace; an eyelet button is reserved in the vamp, a shoelace is connected in the eyelet button in a penetrating way, and the lower side of the vamp is closely attached with the upper side of the tongue, and the sports shoe sole is characterized by further comprising the sports shoe sole according to any one of claims 1-7.

9. The portable athletic shoe of claim 8, wherein a front side of the upper is fixedly coupled with a front panel, a mesh is stitched inside the front panel, and a heel is fixedly coupled to a rear side of the upper.

10. The portable athletic shoe of claim 9, wherein the upper is a mesh made by a tatting process;

the heel is a region with hardness larger than that of the net surface material of the vamp by adding net cloth to the net surface lining layer;

the front piece is formed by adding mesh cloth on the mesh surface lining layer so as to form a region with hardness larger than that of the mesh surface material of the vamp.

Images