CN219460460U - Anti-skid casual shoes - Google Patents

Abstract

The application relates to an anti-skid leisure shoe, which comprises a sole body, wherein the sole body sequentially comprises a toe part, a sole part, an arch part and a heel part from a toe part to a tail part; the toe portion covers the toe area; the toe part comprises a plurality of toe anti-slip blocks, and the toe anti-slip blocks comprise first toe anti-slip blocks and second toe anti-slip blocks; the first toe anti-skid block is arranged on the inner side of the sole body and covers the thumb area of the toe; the second shoe tip anti-slip block is arranged on the outer side of the sole body, and the first shoe tip anti-slip block and the second anti-slip piece are provided with arc-shaped shoe tip drainage grooves; the opening of the arc-shaped toe drain tank faces the inner side of the sole body. According to the anti-slip shoes, the toe-tip anti-slip blocks are arranged at the toe portions, when the feet of a wearer leave the ground, effective acting force is improved for each action of the feet of the wearer, so that the feet of the wearer are assisted to leave the ground, and the phenomenon that soles of casual shoes slip with the ground is reduced.

Description

Anti-skid casual shoes

Technical Field

The application relates to the technical field of casual shoes, in particular to an anti-slip casual shoe.

Background

The leisure shoes are indispensable articles for daily life of people, and the original functions of the leisure shoes are to protect feet from being injured by external environment, so that the walking safety is ensured.

In the walking process of the wearer, when the sole of the casual shoe just contacts the ground or leaves the ground, the sole of the casual shoe is stressed more complicated, and the contact area between the sole body and the ground is smaller, so that the friction force provided by the ground is smaller.

At this time, when the foot of the wearer makes a sideslip motion with the ground, the sole and the ground are liable to slide relatively, so that the foot of the wearer is strained.

Disclosure of Invention

In order to improve the anti-slip performance of the casual shoes, the application provides anti-slip casual shoes.

The application provides an antiskid playshoes adopts following technical scheme:

an anti-skid leisure shoe comprises a sole body, wherein the sole body sequentially comprises a toe part, a sole part, an arch part and a heel part from a toe part to a tail part; the toe portion covers a toe area; the toe part comprises a plurality of toe anti-slip blocks, and the toe anti-slip blocks comprise a first toe anti-slip block and a second toe anti-slip block; the first toe anti-skid block is arranged on the inner side of the sole body and covers the thumb area of the toe; the second toe anti-skid block is arranged on the outer side of the sole body, and the first toe anti-skid block and the second anti-skid piece are provided with arc toe drainage grooves; the opening of the arc-shaped shoe tip drainage groove faces to the inner side of the sole body.

Through adopting above-mentioned technical scheme, through setting up the antiskid block at the toe portion corresponding toe portion of user to the foot of assisting the user leaves ground, thereby reduce leisure sole and ground and skid. When the foot of the wearer is about to leave the ground, the foot of the wearer is firstly inclined and forced to the front of the inner side; rotating the foot laterally so that the lateral toe portion is forced; finally, the user's lateral toe portion is stepped back off the ground. The action mechanism of the toe-tip anti-slip block is that when the foot of the wearer leans to the front of the inner side, the first toe-tip anti-slip block positioned at the inner side of the toe-tip part generates larger friction action with the ground, so that the stable acting force is improved for the wearer.

When the wearer rotates the foot outwards and the toe part at the outer side is forced to kick backwards, the second toe anti-slip block positioned at the inner side of the toe part generates larger friction effect with the ground, so that the grip of the sole body on the ground is improved, and the stable acting force is improved for the wearer.

Meanwhile, the arc-shaped side edge of the first toe anti-slip block close to the drainage groove is matched with the arc-shaped side edge of the inner side of the toe part of the user, so that when the toe part of the outer side of the user is kicked backwards, the friction effect between the first toe anti-slip block and the ground is larger, larger acting force can be improved for the user to wear, and the anti-slip performance of the casual sole is further improved.

Optionally, the toe-end anti-slip block is provided with an anti-slip groove; the anti-slip groove comprises a fixed end and an extension end, and the fixed end of the anti-slip groove is in through connection with the toe-in drainage groove; the extending end of the anti-slip groove extends to the outer side of the sole body.

By adopting the technical scheme, through seting up anti-skidding recess on the shoe tip non-skid block surface, reduce the smooth face that the shoe tip non-skid block is sheeted, improved the roughness on shoe tip non-skid block surface, increased the anti-skidding performance of sole.

Optionally, the notch area of the anti-slip groove is larger than the groove bottom area of the anti-slip groove.

Through adopting above-mentioned technical scheme, when toe portion and ground contact, the tank bottom of slope setting up anti-skidding recess is favorable to discharging the ponding of toe portion to reduce the condition that the playshoes and ground took place to skid, thereby improve the skid resistance of playshoes.

Optionally, the distance between the bottom of the anti-slip groove and the bottom of the shoe tip anti-slip block decreases from the fixed end to the extension end of the anti-slip groove.

By adopting the technical scheme, when the feet of the user leave the ground, the user can tilt inwards or tilt outwards to apply force. Taking outward inclined force application as an example, the inner side of the first toe anti-slip block is stressed the most, and the side wall of the deeper anti-slip groove is favorable for improving the acting force of the ground facing the first toe anti-slip block, so that the anti-slip performance of the casual shoe is improved.

Optionally, the sole body further includes an anti-slip region, the anti-slip region being in contact with the toe portion; the anti-skid area comprises a first anti-skid area in the middle and a second anti-skid area arranged around the first anti-skid area; the first anti-skid area is provided with a plurality of protruding blocks; along the length direction of the sole body, the second anti-skid areas are provided with a plurality of groups of anti-skid convex blocks at intervals.

Through adopting above-mentioned technical scheme, the lug in first non-skid region and the non-skid lug in second non-skid region have improved the roughness of sole body, further improve the sole body to the ground grip, improve the skid resistance of playshoes.

Optionally, the sole portion and the heel portion are provided with gaps extending along the width direction of the sole body, and the gaps are arranged between adjacent sets of the skid-proof blocks.

Through adopting above-mentioned technical scheme, set up in adjacent group anti-skidding lug spare clearance be favorable to discharging the ponding of sole body bottom to reduce the rainwater and remain in sole body bottom. Meanwhile, in the walking process of the wearer, the sole part of the sole body needs to be bent frequently, and the gaps arranged on the adjacent groups of anti-slip lugs are beneficial to the sole part to complete bending action.

Optionally, a separation groove is formed at the bottom of the anti-slip bump positioned at the inner side of the sole part.

By adopting the technical scheme, the feet of partial wearers are used to incline inwards in the walking process, so that the anti-skid convex blocks arranged on the inner sides of the sole parts are stressed greatly. By arranging the separation groove at the bottom of the anti-skid convex block, the roughness of the surface of the anti-skid convex block is reduced. Thereby improving the grip of the cleat to the ground, i.e., increasing the cleat performance of the sole.

Optionally, the surface of the convex block is provided with an anti-skid convex line.

Through adopting above-mentioned technical scheme, the roughness of anti-skidding burr increase first anti-skidding sand grip, further improve the anti-skidding performance of first anti-skidding sand grip.

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

1. by arranging the toe-in anti-slip blocks at the toe portions, when the feet of the wearer leave the ground, effective acting force is improved for each action of the feet of the wearer, so that the feet of the wearer are assisted to leave the ground, the phenomenon that the soles of the casual shoes slip with the ground is reduced, and the anti-slip performance of the casual shoes is improved;

2. by arranging the anti-slip grooves at the bottoms of the shoe tip anti-slip blocks, the roughness of the shoe tip anti-slip blocks is improved, so that the shoe tip anti-slip blocks have larger ground grabbing force to the ground.

Drawings

Fig. 1 is a schematic view showing the structure of a sole body in this embodiment.

Fig. 2 is an enlarged view at a in fig. 1.

Reference numerals illustrate: 1. a sole body; 11. a toe portion; 12. sole portion; 13. an arch portion; 14. a heel portion; 2. an upper body; 3. a toe-tip anti-skid block; 31. a first toe cleat; 32. a second toe cleat; 4. a toe drain tank; 5. an anti-slip groove; 51. a fixed end; 52. an extension end; 6. an anti-slip zone; 61. a first anti-skid region; 62. a second anti-slip zone; 7. a bump; 8. an anti-slip bump; 9. a gap; 10. and a separation groove.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-2.

The embodiment of the application discloses an anti-skid casual shoe. Referring to fig. 1, the anti-slip leisure shoe includes a sole body 1, and an upper body 2 provided above the sole body 1. And the sole body 1 comprises a toe portion 11, a sole portion 12, an arch portion 13 and a heel portion 14 from the toe to the heel.

When the foot of the wearer just touches the ground and the foot of the wearer just leaves the ground during the walking process of the wearer, the sole and the ground are most likely to slip. When the foot of the wearer is about to leave the ground, the heel of the wearer rotates about the connection portion of the sole portion 12 and the toe portion as a rotation center, and the center of gravity of the wearer shifts forward.

During this process, the foot of the wearer is firstly biased obliquely inward and forward; rotating the foot laterally so that the lateral toe portion is forced; finally, the user's lateral toe portion is stepped back off the ground. In the process, the casual sole worn by the wearer is stressed complex and is easy to slip with the ground.

Referring to fig. 1, the toe portion 11 of the sole body 1 includes a plurality of toe blocks 3 for assisting the foot of the wearer to leave the ground.

The toe cleat 3 comprises a first toe cleat 31 and a second toe cleat 32; the first toe cleat 31 is arranged on the inner side of the sole body 1, and the first toe cleat 31 covers the thumb area of the toe; the second toe block 32 is provided on the outer side of the sole body 1 and covers the toe portion of the outer side of the wearer.

An arc-shaped toe drainage groove 4 is formed between the first toe anti-skid block 31 and the second anti-skid piece in a surrounding mode; the opening of the arc-shaped toe drain 4 faces the inner side of the sole body 1. When the toe portion 11 of the sole body 1 is in contact with the ground, the toe drain groove 4 facilitates drainage of accumulated water, thereby improving the anti-slip performance of the sole body 1.

When the foot of the wearer is biased obliquely inward and forward, the first toe cleat 31 located inside the toe portion 11 generates a large friction with the ground, thereby improving the stable biasing force for the wearer.

When the wearer rotates the foot to the outside and the toe part on the outside is forced to kick backward, the second toe cleat 32 positioned on the inner side of the toe part 11 generates a larger friction effect with the ground, thereby improving the grip of the sole body 1 on the ground and improving the stable acting force for the wearer.

Meanwhile, the arc side edge of the first toe anti-skid block 31 close to the drainage groove is matched with the arc shape of the inner side of the toe part of the user, so that when the toe part of the outer side of the user is kicked backwards, the friction effect between the first toe anti-skid block 31 and the ground is larger, larger acting force can be improved for wearing, and the anti-skid performance of the casual sole is further improved.

In addition, referring to fig. 1 and 2, in order to further improve the grip of the toe cleat 3 on the ground, an anti-slip groove 5 is formed at the bottom of the toe cleat 3, thereby further improving the roughness of the toe cleat 3 to further improve the frictional force of the ground on the anti-slip bump 8.

The anti-slip groove 5 comprises a fixed end 51 and an extending end 52, the fixed end 51 of the anti-slip groove 5 is in through connection with the toe drain tank 4, the extending end 52 of the anti-slip groove 5 extends to the outer side of the sole body 1, and the notch area of the anti-slip groove 5 is larger than the tank bottom area of the anti-slip groove 5. When the toe portion 11 is contacted with the ground, the bottom of the anti-slip groove 5 is obliquely arranged, so that accumulated water of the toe portion 11 can be discharged.

In addition, the distance from the bottom of the anti-slip groove 5 to the bottom of the toe cleat 3 decreases from the fixed end 51 of the anti-slip groove 5 to the extended end 52 along the direction of the fixed groove toward the extended end 52. When the user's foot is off the ground, the user may tilt inward or tilt outward to apply a force. Taking the outward inclined force application as an example, the inner side of the first toe anti-slip block 31 is stressed the most, and the side wall of the deeper anti-slip groove 5 is favorable for improving the acting force of the ground facing the first toe anti-slip block 31, so that the anti-slip performance of the casual shoe is improved.

Referring to fig. 1, the sole body 1 further includes an anti-slip region 6 provided at the sole portion 12, the arch portion 13, the heel portion 14, and the foot portion. The anti-slip area 6 is used for improving the ground grabbing force of the sole body 1 on the ground, namely further improving the anti-slip performance of the casual shoe.

The first anti-slip region 61 is disposed in the middle of the sole body 1, and the second anti-slip region 62 is disposed around the periphery of the first anti-slip region 61. The first anti-slip area 61 is provided with a plurality of irregularly shaped lugs 7, and when a user walks, the lugs 7 can improve the acting force of all directions for the feet of the user, thereby improving the ground grabbing force of the sole. At the same time, the surface of the convex blocks 7 is also provided with anti-skid convex lines so as to further improve the anti-skid performance of the sole body 1.

The second anti-slip areas 62 are provided with a plurality of groups of anti-slip convex blocks 8 at intervals along the length direction of the sole body 1. Each set of cleats 8 includes cleats 8 disposed on both sides of first cleat area 61. In this embodiment, the cleat 8 is disposed at two main force receiving locations, namely the sole portion 12 and the heel portion 14. And each part is provided with three groups of anti-skid convex blocks 8.

Gaps 9 for the water accumulated at the bottom of the sole body 1 to flow out are also arranged between the adjacent anti-slip convex blocks 8 at the same side, so that the water accumulated at the bottom of the sole body 1 is reduced, and the anti-slip performance of the sole body 1 is improved. And the gaps 9 formed by the outer and inner anti-slip bumps 8 are in one-to-one correspondence, so that the bending deformation of the sole part 12 is facilitated.

When the wearer's foot is accustomed to tilting inwardly, the cleat 8 disposed inside the sole portion 12 is subjected to greater forces. The isolation groove 10 is formed in the bottom of the anti-skid lug 8 located on the inner side of the sole portion 12, so that the roughness of the surface of the anti-skid lug 8 is improved, and the ground grabbing force of the anti-skid lug 8 to the ground is improved. Namely, by providing the separation groove 10, the anti-slip performance of the sole body 1 is increased.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. An anti-skid leisure shoe comprises a sole body (1), wherein the sole body (1) sequentially comprises a toe portion (11), a sole portion (12), an arch portion (13) and a heel portion (14) from a toe to a tail; the method is characterized in that: the toe portion (11) covers the toe area; the toe part (11) comprises a plurality of toe anti-skid blocks (3), and the toe anti-skid blocks (3) comprise a first toe anti-skid block (31) and a second toe anti-skid block (32); the first toe anti-skid block (31) is arranged on the inner side of the sole body (1), and the first toe anti-skid block (31) covers the thumb area of the toe; the second toe anti-skid block (32) is arranged at the outer side of the sole body (1), and an arc toe drainage groove (4) is formed between the first toe anti-skid block (31) and the second toe anti-skid block (32); the opening of the arc-shaped toe drain groove (4) faces the inner side of the sole body (1).

2. The non-slip casual shoe of claim 1, wherein: the toe anti-skid block (3) is provided with an anti-skid groove (5); the anti-slip groove (5) comprises a fixed end (51) and an extension end (52), and the fixed end (51) of the anti-slip groove (5) is in through connection with the toe-drain groove (4); the extending end (52) of the anti-slip groove (5) extends to the outer side of the sole body (1).

3. The non-slip casual shoe of claim 2, wherein: the notch area of the anti-slip groove (5) is larger than the groove bottom area of the anti-slip groove (5).

4. The non-slip casual shoe of claim 2, wherein: the distance between the bottom of the anti-slip groove (5) and the bottom of the toe anti-slip block (3) decreases from the fixed end (51) to the extending end (52) of the anti-slip groove (5).

5. The non-slip casual shoe of claim 1, wherein: the sole body (1) further comprises an anti-slip area (6), and the anti-slip area (6) is in abutting connection with the toe portion (11); the anti-skid region (6) comprises a first anti-skid region (61) at the middle part and a second anti-skid region (62) arranged around the first anti-skid region (61); the first anti-skid area (61) is provided with a plurality of protruding blocks (7); along the length direction of the sole body (1), the second anti-skid areas (62) are provided with a plurality of groups of anti-skid lugs (8) at intervals.

6. The non-slip casual shoe of claim 5, wherein: the sole part (12) and the heel part (14) are respectively provided with a gap (9) extending along the width direction of the sole body (1), and the gaps (9) are arranged between adjacent groups of anti-skid lugs (8).

7. The non-slip casual shoe of claim 6, wherein: the bottom of the anti-slip convex block (8) positioned at the inner side of the sole part (12) is provided with a separation groove (10).

8. The non-slip casual shoe of claim 6, wherein: the surface of the convex block (7) is provided with an anti-skid convex line.