CN218457446U - Anti-skid sports shoes - Google Patents

Abstract

The application relates to an anti-skidding sports shoe, which comprises a sole body, wherein the sole body sequentially comprises a toe part, a sole part, an arch part, a heel part and a heel part from a toe cap to a heel; the sole body is provided with a first anti-slip area, the first anti-slip area is arranged along the length direction of the sole body, a plurality of groups of anti-slip blocks are arranged at intervals along the length direction of the sole body in the first anti-slip area, the anti-slip blocks are arranged at the edge position of the first anti-slip area, and each anti-slip block comprises a first anti-slip block and a third anti-slip block; first non slipping spur sets up in the position that intersects of sole portion and toe portion, and third prevention slider sets up in the position that intersects of sole portion and arch of foot portion. Through setting up a plurality of groups of non slipping spur that are located different positions, provide stable helping hand for the wearer, reduce because of the sole bending, twist and lead to sole body and ground to take place relative slip, and make the injured condition of wearer's foot take place.

Description

Anti-skid sports shoes

Technical Field

The application relates to the field of sports shoes, in particular to an anti-skidding sports shoe.

Background

The sports shoes are indispensable articles for daily life of people, and the original functions of the sports shoes are only used for protecting feet from being damaged by external environment, so that the walking safety is guaranteed.

When the foot of a wearer sideslips during long-time walking, relative sliding occurs between the sole and the ground, which results in foot sprain.

Disclosure of Invention

In order to improve the non-skid property of sports shoes, this application provides a non-skid sports shoes.

The application provides an antiskid sports shoes adopts following technical scheme:

an anti-skidding sports shoe comprises a shoe sole body, wherein the shoe sole body sequentially comprises a toe portion, a sole portion, an arch portion, a heel portion and a tail portion from a toe cap to a tail; the sole body is provided with a first anti-slip area, the first anti-slip area is arranged along the length direction of the sole body, a plurality of groups of anti-slip blocks are arranged at intervals along the length direction of the sole body in the first anti-slip area, the anti-slip blocks are arranged at the edge position of the first anti-slip area, and each anti-slip block comprises a first anti-slip block and a third anti-slip block; first non slipping spur set up in sole portion with the intersection position of toe portion, third prevention slider set up in sole portion with the intersection position of arch of foot portion.

When the wearer's foot begins to move away from the ground, the wearer's arch portion initially bends, and the wearer's foot exerts a force backwards; thereafter, the foot of the wearer will bend medially and anteriorly; the wearer's foot will then rotate the foot outward so that the foot is kicked back out to clear the ground in the direction of walking. The whole foot moves forward continuously at the stressed fulcrum in the process of movement, and bends and straightens gradually from the heel to the sole.

By adopting the above technical scheme, when the foot of the wearer is ready to leave the ground, the arch part of the wearer is initially bent, and the foot of the wearer exerts force backwards. At this time, the bottom of the first cleat is stressed, and the first cleat will provide the wearer with a stable force that will help control the bending motion of the wearer's foot.

Thereafter, as the wearer's foot leans medially and anteriorly, it follows the curvature and posterior exertion of the arch of the foot. At this time, the first anti-slip block near the inner side of the sole body provides a stable adhesion force for the wearer, which contributes to the torsion control.

Then, the foot of the wearer can rotate outwards to turn the foot to the walking direction, and finally, in the process that the wearer kicks backwards to leave the ground, the bottom of the third prevention sliding block can improve the acting force for stabilizing and helping the wearer to go forwards.

Through setting up the non slipping spur in different positions, provide stable helping hand for the wearer, reduce the sole and crooked, twist reverse and lead to sole body and ground to take place relative slip and make the injured condition of wearer's foot take place.

Optionally, the anti-skid block is provided with an anti-skid groove; along keeping away from the axis direction of upper of a shoe body, the groove depth in antiskid groove increases gradually.

Through adopting above-mentioned technical scheme, further improve the grip strength of non slipping spur, improve the non-skid property of non slipping spur.

Optionally, the sole body still is equipped with second antiskid district, second antiskid district centers on first antiskid district sets up, second antiskid district is equipped with first antiskid sand grip.

Through adopting above-mentioned technical scheme, when the person of dress made the sidesway action, the effort of the relative direction of sidesway with the person of dress can be improved in the antiskid of second district, reduces the relative slip between sole body and the ground. The second sand grip of second antiskid district is higher than second antiskid district, and the roughness in the second antiskid district that further increases improves the sideslip prevention performance in second antiskid district to reduce and wear injured's risk.

In addition, the wearer can incline outwards or inwards more or less during walking, and the first anti-skid convex strips arranged in a protruding mode play a role in reducing abrasion of the outer side or the inner side of the sole. The condition that the foot of a wearer is injured due to sideslip because the outer side or the inner side of the sole body is ground flat is reduced, so that the sole body is difficult to provide enough acting force when the wearer moves laterally.

Optionally, the length direction of the first anti-slip convex strips is consistent with the width direction of the upper body.

When the wearer moves sideways, the lateral movement is generally not parallel to the width direction of the sole body. The wearer can do lateral movement in the walking process, and usually can do lateral movement towards the oblique front. At this time, the long edges of the first anti-slip convex strips play more anti-slip acting force, so that the anti-slip performance of the sole body is improved.

Optionally, the upper surface of the first anti-slip raised line is provided with anti-slip raised lines arranged along the length direction of the sole body.

Through adopting above-mentioned technical scheme, the roughness that anti-skidding burr increased first anti-skidding sand grip further improves the non-skid property of first anti-skidding sand grip.

Optionally, the bottoms of the sole part and the heel part are both provided with a first drainage channel extending along the width direction of the sole body, and the first drainage channel is arranged between two adjacent sets of anti-skid blocks; first drainage tank is provided with the multichannel and along the length direction interval distribution of sole body, and the both ends of first drainage tank extend to the both sides of sole body.

Through adopting above-mentioned technical scheme, the main stress point of sole portion when walking, the both ends notch of first drainage groove extends to the left and right sides of sole body, when the person of dress was walked in the place of ponding, is convenient for do not drain the both sides of sole body with the moisture of sole portion, prevents effectively that the rainwater from remaining in sole body bottom surface, improves the antiskid nature of sole, and then reduces the potential safety hazard of the person of dress at the walking of ponding region.

Optionally, the middle position of the first drainage groove is bent towards the toe part.

The sole part is used as a main stress part and is often bent and deformed, and the first drainage groove is formed in the sole part, so that the bending performance of the sole part is improved. However, in the meantime, in the bending deformation of the sole body, the acting force of the sole body at the first drain groove position is also the largest, so that the first drain groove is easily aged and cracked under the repeated acting force with high strength.

Through adopting above-mentioned technical scheme, at the dress walking in-process, a groove lateral wall of first drainage tank is protruding to tip of a shoe portion, and this arch can share the effort that first drainage tank received in the crooked of relapse, slows down the ageing fracture of first drainage tank in the bending deformation of relapse, prolongs the life of product.

Optionally, the first anti-slip region further comprises an anti-slip convex ring, and the anti-slip convex ring is arranged between two anti-slip blocks in the same group; the first anti-slip area is provided with a first convex strip, a second convex strip and a third convex strip, the first convex strip, the second convex strip and the third convex strip are sequentially arranged in the anti-slip convex rings, the first convex strip inclines towards the inner side of the sole body, the second convex strip is arranged along the length direction of the sole body, and the third convex strip inclines towards the outer side of the sole body.

Through adopting above-mentioned technical scheme, the roughness of sole body is further improved to anti-skidding bulge loop, first sand grip, second sand grip, third sand grip, and can keep out the external force of each side, effectively improves the anti front and back slipperiness and the anti performance of sliding about of wearing person under the state of standing. Thereby reducing the possibility of sprain of feet caused by the sliding of the soles.

Optionally, a vent seam is arranged between the first anti-slip region and the second anti-slip region.

Through adopting above-mentioned technical scheme, increase the gas passage of sole body bottom, be favorable to sole body drainage.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through setting up a plurality of sets of non slipping spur, provide stable helping hand for the person of dress, reduce the sole bending, twist and lead to sole body and ground to take place relative slip and make the injured condition of person of dress foot take place.

2. Through setting up first anti-skidding sand grip, improve the anti-skidding performance of sideslipping of sole body.

3. First drain tank intermediate position sets up the arch to toe cap portion, and the effort that first drain tank received in the bending that relapses can be shared to the arch, slows down the ageing fracture of first drain tank in the bending deformation that relapses, prolongs the life of product.

Drawings

FIG. 1 is an overall view of the anti-slip sports shoe according to the present embodiment

Fig. 2 is a schematic view showing the structure of the sole body according to this embodiment.

Fig. 3 is an enlarged view of a point a in fig. 2.

Description of reference numerals: 1. a sole body; 2. an upper body; 3. a first non-slip region; 4. a second non-slip region; 5. a toe portion; 6. a sole portion; 7. an arch portion; 8. a heel portion; 9. a heel portion; 11. a first anti-skid block; 12. a second anti-skid block; 13. a third prevention slide block; 14. a fourth anti-skid block; 15. a fifth anti-skid block; 16. a sixth anti-skid block; 17. a seventh anti-skid block; 18. an eighth cleat; 21. a first anti-slip bead; 23. an anti-slip convex ring; 24. a first rib; 25. a second convex strip; 26. a third rib; 27. a first drainage tank; 28. ventilating seams; 29. an anti-slip groove; 30. and (4) a groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses anti-skidding sports shoes. Referring to fig. 1, the anti-slip sports shoe includes a sole body 1 and an upper body 2 fixed to the sole body 1. Referring to fig. 1, the sole body 1 includes a toe portion 5, a ball portion 6, an arch portion 7, a heel portion 8, and a heel portion 9 in this order along a length direction thereof.

Referring to fig. 2, the sole body 1 includes a first non-slip region 3 and a second non-slip region 4, and the second non-slip region 4 is disposed around the first non-slip region 3. A vent seam 28 is arranged between the first anti-skid area 3 and the second anti-skid area 4 to increase the air channel at the bottom of the sole body 1, which is beneficial to the drainage at the bottom of the sole body 1.

The first anti-slip area 3 is provided with a plurality of groups of anti-slip blocks which are arranged at intervals along the length direction of the sole body 1. Each set of anti-slip blocks comprises two anti-slip blocks symmetrically arranged about the sole body 1. The number of the sets of anti-slip blocks can be selected according to actual conditions, and in the embodiment, the sole part 6 and the heel part are provided with three sets of anti-slip blocks.

The anti-skid blocks of the sole part 6 sequentially comprise a first anti-skid block 11, a second anti-skid block 12 and a third anti-skid block 13. The first anti-skid block 11 is arranged at the intersection position of the sole part 6 and the toe part 5, and the second anti-skid block 12 is arranged in the middle of the sole part 6; the third prevention slide block 13 is arranged at the intersection position of the sole part 6 and the arch part 7.

The heel anti-skid blocks comprise a fourth anti-skid block 14, a fifth anti-skid block 15 and a sixth anti-skid block 16. The fourth anti-slip block 14 is arranged at the intersection of the heel part 8 and the arch part 7, the sixth anti-slip block 16 is arranged at the intersection of the heel part 8 and the tail part 9, and the fifth anti-slip block 15 is arranged in the middle of the heel part 8.

The synergy between the various cleats will be described below in conjunction with the cleats of the sole portion 6 and the specific motion of the wearer during walking.

The motion process of the foot is divided into four stages according to the time sequence of the contact with the ground:

when the wearer's foot begins to move away from the ground, the arch portion 7 of the wearer initially bends, and the wearer's foot exerts a force backwards. Thereafter, the foot of the wearer bends and twists medially and forwardly. The wearer's foot will then rotate the foot outward turning the foot in the walking direction, during which the wearer's foot continues to flex while exerting a force rearward. Finally, the wearer's foot is kicked back off the ground.

In the whole walking process, the stressed pivot of the foot of a wearer continuously moves forwards in the moving process, and the foot gradually bends and straightens from the heel to the sole.

When the wearer's foot is about to leave the ground, the arch part 7 of the wearer is initially flexed and the wearer's foot is forced backward, and the bottom of the third prevention slider 13 is forced, the third prevention slider 13 will provide the wearer with a force that will stabilize and help control the bending motion.

Thereafter, the wearer's foot is also accompanied by the bending and backward exertion of the arch part 7 in the process of inclining the wearer's foot to the medial side and forward. At this time, the third prevention slider 13 near the inner side of the sole body 1 provides a stable force contributing to the torsion control to the wearer.

The foot of the wearer then rotates the foot laterally so that the foot turns in the direction of walking. Thereafter, the wearer's foot continues to bend and force backwards. At this time, the sole body 1 continues to bend and deform even under the action of the foot, and the second anti-slip blocks 12 improve the stable acting force for the wearer, thereby reducing the possibility of relative sliding between the sole body 1 and the ground.

Finally, the bottom of first cleat 11 will provide the wearer with a steady force that will assist in his/her forward movement during the wearer's backward kick to clear the ground.

Through the mutual cooperation of three sets of non-slip shoes in first non-slip zone 3, first non-slip zone 3 provides stable helping hand for the wearer. The condition that the sole body 1 slides relative to the ground due to bending and twisting of the sole body 1 is reduced, so that the possibility of injury to the feet of a wearer is reduced.

The anti-skid block is provided with an anti-skid groove 29. Along keeping away from the axis direction of upper of a shoe body, the groove depth in antiskid groove increases gradually. So as to further improve the grip of the anti-skid block and improve the anti-skid performance of the anti-skid block.

In first non-slip region 3, toe portion 5 of sole body 1 is equipped with seventh anti-skidding piece 17, and heel portion 9 of sole body 1 is equipped with eighth non slipping spur 18, and seventh anti-skidding piece 17 and eighth non slipping spur 18 are all seted up recess 30 in order to increase and are grabbed the land fertility.

Referring to fig. 3, the antislip protruding rings 23 are provided between the symmetrically disposed antislip blocks, and the first protruding strips 24, the second protruding strips 25, and the third protruding strips 26 are further provided in the antislip protruding rings 23 in sequence. The first convex strip 24 inclines towards the inner side of the sole body 1, the second convex strip 25 is arranged along the length direction of the sole body 1, and the third convex strip 26 inclines towards the outer side of the sole body 1. The shoe sole can resist external force of all directions while improving the roughness of the shoe sole body 1, and effectively improves the front and back slippage resistance and the left and right slippage resistance of a wearer in a standing state. Thereby reducing the possibility of sprain of feet caused by relative sliding between the sole body 1 and the ground.

Referring to fig. 2, the second anti-slip region 4 is provided with a first anti-slip convex strip 21, and the length direction of the first anti-slip convex strip 21 is consistent with the width direction of the upper body 2. When the wearer moves sideways, the lateral movement will not be parallel to the width direction of the sole body 1. The wearer can do lateral movement in the walking process, and usually can do lateral movement towards the oblique front. At this time, the long sides of the first anti-slip beads 21 exert more anti-slip force, thereby improving the anti-slip performance of the sole body 1.

Further, the upper surface of the first anti-slip protruding strips 21 is provided with anti-slip protruding strips (not marked in the figure) arranged along the length direction of the sole body 1, so as to improve the anti-slip performance of the first anti-slip protruding strips 21.

Referring to fig. 2, the sole body 1 is further provided with a first water drainage groove 27 for draining away the accumulated water at the bottom of the sole body 1 and improving the anti-skid performance of the sole body 1. In order to facilitate the opening of the first drainage channel 27, in this embodiment, the first anti-slip ribs 21 and the anti-slip blocks are arranged on the same straight line in a one-to-one correspondence.

The sole portion 6 and the 8 bottoms of heel portion of sole body 1 all set up the first drainage tank 27 that sets up along the width direction of sole body 1, and first drainage tank 27 sets up the multichannel and distributes along the length direction of sole body 1, and just first drainage tank 27 sets up in adjacent two sets of between the non slipping spur. The notches of the first drain handle extend to both sides of the sole body 1.

The number of the first drainage grooves 27 can be adjusted according to actual conditions, and in the embodiment, the number of the first drainage grooves 27 in the sole portion 6 and the heel portion is three.

Sole portion 6 is main stress point when walking, and the both ends notch of first drainage groove 27 extends to the left and right sides of sole body 1, and when the person of dress was walked in the place of ponding, be convenient for do not drain the moisture of sole portion 6, prevent effectively that the rainwater from remaining in sole body 1 bottom surface, improve sole body 1's antiskid nature, and then reduce the potential safety hazard of the person of dress walking in the ponding region.

The sole portion 6 is used as a main stress portion and is often bent and deformed, and the first drainage groove 27 is formed in the sole portion 6, so that the bending performance of the sole portion 6 is improved. At the same time, however, the sole body 1 is most urged by the first drain grooves 27 during the bending deformation of the sole body 1, so that the first drain grooves 27 are likely to age and crack under repeated urging force of high strength.

Therefore, the first drain groove 27 is further provided, and the middle position of the first drain groove 27 is protruded toward the toe portion 5. In the wearing and walking process, one groove side wall of the first drainage groove 27 protrudes towards the toe part 5, and the protrusion can share the acting force of the first drainage groove 27 in repeated bending, so that the aging and cracking of the first drainage groove 27 in repeated bending deformation are relieved, and the service life of the product is prolonged.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. An anti-skidding sports shoe comprises a sole body (1), wherein the sole body (1) sequentially comprises a toe part (5), a sole part (6), an arch part (7), a heel part (8) and a heel part (9) from the toe to the tail; the method is characterized in that: the sole body (1) is provided with a first anti-skid region (3), the first anti-skid region (3) is arranged along the length direction of the sole body (1), the first anti-skid region (3) is provided with a plurality of groups of anti-skid blocks at intervals along the length direction of the sole body (1), the anti-skid blocks are arranged at the edge position of the first anti-skid region (3), and each anti-skid block comprises a first anti-skid block (11) and a third anti-skid block (13); first non slipping spur (11) set up in sole portion (6) with the intersection position of toe portion (5), third prevention slider (13) set up in sole portion (6) with the intersection position of arch of foot portion (7).

2. The anti-slip athletic shoe of claim 1, wherein: the antiskid block is provided with an antiskid groove (29); along the direction of the central axis far away from the sole body (1), the groove depth of the anti-skidding groove (29) is gradually increased.

3. The anti-slip sports shoe of claim 2, wherein: the sole body (1) still is equipped with second antiskid district (4), second antiskid district (4) center on first antiskid district (3) set up, second antiskid district (4) are equipped with first antiskid sand grip (21).

4. The anti-slip athletic shoe of claim 3, wherein: the length direction of the first anti-skid convex strips (21) is consistent with the width direction of the sole body (1).

5. The anti-slip sports shoe according to claim 4, wherein: the upper surface of the first anti-skid convex strips (21) is provided with anti-skid convex strips arranged along the length direction of the sole body (1).

6. The anti-slip sports shoe according to claim 1, wherein: the bottoms of the sole part (6) and the heel part (8) are both provided with a first drainage channel (27) extending along the width direction of the sole body (1), and the first drainage channels (27) are arranged between two adjacent groups of anti-skid blocks; the first water drainage grooves (27) are provided with multiple channels and distributed at intervals along the length direction of the sole body (1), and two ends of the first water drainage grooves (27) extend to two sides of the sole body (1).

7. The anti-slip athletic shoe of claim 6, wherein: the middle position of the first drainage groove (27) is bent towards the toe part (5).

8. The anti-slip sports shoe according to claim 1, wherein: the first anti-skid area (3) further comprises an anti-skid convex ring (23), and the anti-skid convex ring (23) is arranged between the two anti-skid blocks in the same group; first antiskid district (3) are equipped with first sand grip (24), second sand grip (25), third sand grip (26), first sand grip (24), second sand grip (25), third sand grip (26) set gradually in antiskid bulge loop (23), first sand grip (24) to sole body (1) inboard slope second sand grip (25) along sole body (1) length direction sets up third sand grip (26) to sole body (1) outside slope.

9. The anti-slip athletic shoe of claim 3, wherein: a vent seam (28) is arranged between the first anti-skid area (3) and the second anti-skid area (4).

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