CN221012146U - Anti-skid children's shoes - Google Patents

Abstract

The application relates to the technical field of shoes, and provides an anti-skid children shoe which comprises a sole, wherein a first anti-skid area is arranged in the middle of a half sole area of the sole, a plurality of first anti-skid convex blocks and second anti-skid convex blocks are arranged in the first anti-skid area in a protruding mode, first arc-shaped grooves are formed in the first anti-skid convex blocks, second arc-shaped grooves are formed in the second anti-skid convex blocks, and the directions of the first arc-shaped grooves are opposite to those of the second arc-shaped grooves. According to the anti-slip shoes for children, the anti-slip effect of the shoes in different directions can be improved by the groove wall of the first arc-shaped groove and the groove wall of the second arc-shaped groove, so that the slipping situation caused by different wearing habits of children is reduced.

Description

Anti-skid children's shoes

Technical Field

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

Background

Shoes are necessary wearing articles in people's life, along with the development of economic level, people are to the continuous improvement of quality of life requirement, and the kind of shoes on the market is in full of eyes to satisfy people's use to different scenes.

Children walk and run more frequently in daily life than adults, so children are more concerned about the anti-slip properties of shoes. At present, the common children shoes mainly realize the purpose of skid resistance by arranging lines on soles. However, the sole has limited anti-skid performance due to different walking habits of different users, and needs to be improved.

Disclosure of utility model

In order to provide anti-slip properties for different users wearing the shoe, the application provides an anti-slip children shoe.

The application provides an anti-skid children shoe which adopts the following technical scheme:

The utility model provides an antiskid shoes for children, includes the sole, the half sole district middle part of sole is provided with first antiskid district, first antiskid district is outstanding to be provided with a plurality of first anti-skidding lugs and second anti-skidding lug, first arc wall has been seted up to first anti-skidding lug, the second arc wall has been seted up to the second anti-skidding lug, the orientation of first arc wall with the orientation in second arc wall is opposite.

Through adopting foretell technical scheme, first arc wall and second arc wall enclose and close and form a circular shape for when children wear this shoes, the cell wall of first arc wall and the cell wall of second arc wall can increase the antiskid effect of this shoes in different directions, thereby reduce the condition that causes the slip because of different children wear to get used to differently.

Optionally, the first anti-slip bump is provided with a first anti-slip strip, the first anti-slip strip is located one side of the first anti-slip bump away from the first arc groove, and the extension direction of the first anti-slip strip is in the same direction as the width direction of the sole.

Through adopting foretell technical scheme, through setting up first antislip strip, children wear in this shoes walking process, further increase the grip of this sole to improve the antiskid performance of this shoes.

Optionally, the first anti-slip bump and the second anti-slip bump are both provided with adsorption grooves.

Through adopting foretell technical scheme, when children trampled to smooth ground, the adsorption groove can make this sole adsorb in ground to increase the grip of this sole, and then increase the skid resistance of this shoes.

Optionally, the sole bottom is provided with the second antiskid district, the second antiskid district is located the toe portion of sole, the second antiskid district is protruding to be provided with a plurality of toper posts.

By adopting the technical scheme, when a wearer wears the shoe to walk forward, the plurality of conical columns further increase the ground grabbing force of the sole, and the anti-skid performance of the shoe is improved.

Optionally, the sole is provided with a plurality of wear-resistant blocks in a protruding manner, and all the wear-resistant blocks are arranged at intervals along the peripheral edge of the sole; the surface of the wear-resistant block is provided with a plurality of wear-resistant bulges.

By adopting the technical scheme, when children wear the shoes to walk, the peripheral edge of the soles are worn more; the wear-resisting blocks positioned at the periphery of the sole can improve the wear-resisting effect of the sole, and the wear-resisting protrusions further increase the anti-skid effect of the shoe.

Optionally, a third anti-slip area is arranged in the heel area of the sole, a plurality of concentric circular grooves are formed in the third anti-slip area, and radius components of the concentric circular grooves are increased.

By adopting the technical scheme, the arrangement of the concentric circular grooves further increases the friction force of each circumference of the sole and further reduces the slipping of the child wearing the shoe; and, heel portion atress of sole is great, and a plurality of concentric circular grooves can be with the stress divergence that the sole received, reduce stress concentration and make the condition that concentric circular grooves take place wearing and tearing.

Optionally, the third anti-slip area is further provided with a first drainage groove, and the first drainage groove is communicated with all the concentric circular grooves.

Through adopting foretell technical scheme, through setting up first water drainage tank, can discharge the rainwater that gets into a plurality of concentric circles inslot outside to keep the skid resistance of this shoes.

Optionally, the third anti-slip area is provided with an elastic groove, and the circle center of the elastic groove is the same as that of the concentric circular groove; the elastic groove is embedded with an elastic column body.

Through adopting foretell technical scheme, through setting up the elastic column body, when children wear this shoes walking, the elastic column body that is located sole heel portion can take place elastic deformation to improve the shock attenuation effect of this shoes, increase the travelling comfort that children wear this shoes.

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

1. By arranging the first anti-slip convex block and the second anti-slip convex block, the groove wall of the first arc-shaped groove and the groove wall of the second arc-shaped groove can increase the anti-slip effect of the shoe in different directions, thereby reducing the slipping situation caused by different wearing habits of different children;

2. Through setting up the elastic column body, when children wear this shoes walking, the elastic column body that is located sole heel portion can take place elastic deformation to improve the shock attenuation effect of this shoes, increase the travelling comfort of children's dress this shoes.

Drawings

Fig. 1 is a schematic structural view of the present embodiment;

Fig. 2 is a schematic structural view of the outsole of the present embodiment.

Reference numerals illustrate: 1. a sole; 11. an insole; 12. an outsole; 2. a first anti-skid region; 21. a first anti-slip bump; 22. the second anti-slip convex block; 23. a first arc-shaped groove; 24. a second arc-shaped groove; 25. a first cleat; 26. a second cleat; 27. an adsorption tank; 3. a second anti-slip zone; 31. a tapered column; 4. a third anti-skid region; 41. concentric circular grooves; 42. a first drain tank; 43. an elastic groove; 44. an elastic column; 5. a wear block; 51. a second drain tank; 52. wear-resisting bulges; 53. a third drain tank; 6. an upper.

Detailed Description

The application is described in further detail below with reference to fig. 1-2.

The embodiment of the application discloses an anti-skid children shoe.

Referring to fig. 1, an anti-slip child shoe includes a sole 1 and an upper 6 connected to the sole 1; the sole 1 comprises an inner bottom 11 and an outer bottom 12, the inner bottom 11 is made of EVA material, the sole 1 is soft and elastic, and the comfort of children wearing the sole can be improved; the outsole 12 is made of rubber material, which has good wear resistance and can increase the service life of the sole 1.

Referring to fig. 2, the sole 1 is provided with a first anti-slip zone 2, a second anti-slip zone 3, and a third anti-slip zone 4, the second anti-slip zone 3 is provided at a toe portion of the outsole 12, the first anti-slip zone 2 is provided as a half sole region middle portion of the outsole 12, and the third anti-slip zone 4 is provided as a half sole region middle portion of the outsole 12.

The second anti-skid area 3 is convexly provided with a plurality of conical columns 31, all the conical columns 31 are arranged in the first anti-skid area 2 at intervals, the plurality of conical columns 31 are integrally formed with the outsole 12, and the tips of all the conical columns 31 face to one side far away from the outsole 12; by providing a plurality of tapered studs 31, the grip of the sole 1 can be increased, and the anti-slip effect of the shoe can be improved.

The outsole 12 is provided with a plurality of wear blocks 5, all the wear blocks 5 are arranged at intervals along the peripheral edge of the sole 1, and second drain grooves 51 are formed between adjacent wear blocks 5, so that water entering the sole 1 can drain outside through the second drain grooves 51, and the anti-slip effect of the shoe is maintained.

The wear-resistant block 5 is provided with a plurality of wear-resistant protrusions 52 on the surface, and by arranging the plurality of wear-resistant protrusions 52, the anti-skid effect of the sole 1 can be improved when the wear resistance of the sole 1 is increased, and the slipping of children wearing the shoe is reduced. The circumference side of the sole 1 is convenient for being worn easily, and the wear-resisting effect of the sole 1 can be improved and the situation that the shoe is worn can be reduced by a plurality of wear-resisting blocks 5 positioned at the circumference side edge of the sole 1.

The third water drainage groove 53 is formed in the middle of the wear-resistant block 5, and the water drainage effect of the sole 1 is further improved by arranging the third water drainage groove 53, so that the anti-skid performance of the shoe is maintained.

The first anti-skid area 2 comprises a plurality of first anti-skid lugs 21 and a plurality of second anti-skid lugs 22, and the adjacent first anti-skid lugs 21 and second anti-skid lugs are arranged in a staggered manner; the first arc-shaped groove 23 is formed in the first anti-slip bump 21, the first arc-shaped groove 23 faces the front end of the sole 1, the first anti-slip strip 25 is arranged on one side, away from the first chute groove, of the first anti-slip block, and the extending direction of the first anti-slip strip 25 is in the same direction as the width direction of the sole 1.

The second anti-slip bump 22 is provided with a second arc groove 24, the second arc groove 24 faces the rear end of the sole 1, namely, the first arc groove 23 faces the second arc groove 24 in opposite directions; the second anti-slip bump 22 is provided with a second anti-slip strip 26 on one side far away from the second chute, and the extension direction of the second anti-slip strip 26 is the same as the extension direction of the first anti-slip strip 25.

By arranging the first anti-slip strip 25 and the second anti-slip strip 26, the first anti-slip strip 25 and the second anti-slip strip 26 provide forward and backward friction force of the sole 1, so that the anti-slip performance of the shoe foundation is maintained, and the slipping of the child wearing the shoe is reduced.

The first anti-skid convex block 21 and the second anti-skid convex block 22 are respectively provided with an adsorption groove 27, and when the sole 1 touches the ground in the walking process, the first anti-skid convex block 21 and the second anti-skid convex block 22 are deformed, so that the air in the adsorption grooves 27 is discharged; meanwhile, the first anti-skid convex block 21 and the second anti-skid convex block 22 have the trend of recovering elastic deformation, so that the inside of the adsorption groove 27 has the trend of sucking air, thereby the first anti-skid convex block 21 and the second anti-skid convex block 22 have the function of adsorbing the ground, the ground grabbing force of the sole 1 is improved, and the slipping situation of a child wearing the shoe is further reduced.

The third anti-skid area 4 is provided with a plurality of concentric circular grooves 41, and the radiuses of all the concentric circular grooves 41 are increased in sequence; the concentric grooves 41 can increase the friction force of the sole 1 to the ground in different directions, and can reduce the slipping of children with different walking habits when wearing the shoe; and the concentric circular groove 41 is positioned at the heel part of the sole 1, the concentric circular groove 41 can disperse the stress concentrated at the heel part of the sole 1, the possibility that the concentric circular groove 41 is ground down due to the concentration of the attractive force of the sole 1 is reduced, and the service life of the shoe is prolonged.

The third anti-skid area 4 is also provided with a first drainage groove 42, and the first drainage groove 42 is communicated with all the concentric circular grooves 41; when a child walks on the ground with water accumulation while wearing the shoe, the first drain grooves 42 can drain water entering the concentric circular grooves 41, thereby maintaining the anti-slip performance of the sole 1 and reducing the occurrence of slipping of the child wearing the shoe.

The third anti-slip zone 4 is provided with an elastic groove 43, the elastic groove 43 is positioned in the middle of the concentric circular groove 41, namely, the circle center of the elastic groove 43 is the same as the circle center of the concentric circular groove 41, and an elastic column 44 is arranged in the elastic groove 43; the elastic column 44 is located at the heel part of the sole 1, so that when a child wears the sole to walk, the heel part of the sole 1 is stressed greatly, and the elastic column 44 can be elastically deformed, so that a damping effect is achieved, and the comfort of the child wearing the sole is improved.

The implementation principle of the anti-skid shoes for children provided by the embodiment of the application is as follows:

The first arc-shaped groove 23 and the second arc-shaped groove 24 enclose to form an ellipse, so that when a child wears the shoe, the groove walls of the first arc-shaped groove 23 and the second arc-shaped groove 24 can increase friction forces of the shoe in different directions on the ground, and the possibility that the child with different walking habits slips when wearing the shoe can be reduced.

The above is a preferred embodiment of the present application, and is not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. An anti-slip children's shoe, characterized in that: including sole (1), half sole district middle part of sole (1) is provided with first antiskid district (2), first antiskid district (2) are protruding to be provided with a plurality of first antiskid lug (21) and second antiskid lug (22), first arc wall (23) have been seted up to first antiskid lug (21), second arc wall (24) have been seted up to second antiskid lug (22), the orientation of first arc wall (23) with the orientation of second arc wall (24) is opposite.

2. An anti-slip children's shoe according to claim 1, wherein: the first anti-slip lug (21) is provided with a first anti-slip strip (25), the first anti-slip strip (25) is located on one side, far away from the first arc-shaped groove (23), of the first anti-slip lug (21), and the extension direction of the first anti-slip strip (25) is in the same direction with the width direction of the sole (1).

3. An anti-slip children's shoe according to claim 1, wherein: the first anti-skid convex block (21) and the second anti-skid convex block (22) are respectively provided with an adsorption groove (27).

4. An anti-slip children's shoe according to claim 1, wherein: the sole (1) bottom is provided with second antiskid district (3), second antiskid district (3) are located the toe portion of sole (1), second antiskid district (3) are provided with a plurality of toper posts (31) in the protrusion.

5. An anti-slip children's shoe according to claim 1, wherein: the sole (1) is convexly provided with a plurality of wear-resistant blocks (5), and all the wear-resistant blocks (5) are arranged at intervals along the peripheral side edge of the sole (1); the surface of the wear-resistant block (5) is provided with a plurality of wear-resistant bulges (52).

6. An anti-slip children's shoe according to claim 1, wherein: the sole is characterized in that a third anti-slip area (4) is arranged in the heel area of the sole (1), a plurality of concentric circular grooves (41) are formed in the third anti-slip area (4), and radius components of the concentric circular grooves (41) are increased.

7. An anti-slip children's shoe according to claim 6, wherein: the third anti-skid area (4) is also provided with a first drainage groove (42), and the first drainage groove (42) is communicated with all the concentric circular grooves (41).

8. An anti-slip children's shoe according to claim 6, wherein: the third anti-skid area (4) is provided with an elastic groove (43), and the circle center of the elastic groove (43) is the same as the circle center of the concentric circular groove (41); an elastic column body (44) is embedded in the elastic groove (43).