CN218551519U - Skid-proof playshoes can grab ground - Google Patents

Abstract

The application discloses skid-proof playshoes can grab ground, including the sole, the sole includes insole and outsole, the lower surface of outsole is equipped with first non-slip raised and second non-slip raised, first non-slip raised with second non-slip raised edge the length direction of outsole sets up in turn, first non-slip raised is the loop configuration, first non-slip raised inner peripheral surface is the loudspeaker form, the upper surface of outsole is equipped with a plurality of supporting lug, each supporting lug's position and each the one-to-one sets up about the bellied position of first non-slip, the lower surface of insole be equipped with the spread groove of supporting lug adaptation. First anti-skidding arch can form the adsorption to smooth ground in this application, is favorable to improving the land fertility of grabbing of sole.

Description

Can grab skid-proof playshoes in ground

Technical Field

The application relates to the field of shoes, in particular to a pair of anti-skidding playshoes capable of grabbing the ground.

Background

The shoes are necessities in daily life of people, the shoes are various, and the casual shoes are widely welcomed by people due to the design concept of simplicity and comfort, so that the casual shoes are commonly used in daily life and work scenes.

The soles of the leisure shoes are usually provided with anti-skid lines, but the ground paved with smooth tiles and stone plates is arranged inside and outside modern buildings, and the problem that the leisure shoes are still easy to skid is still caused when the ground is wet or stained with water.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the playshoes are easy to slip on the wet and wet smooth ground, the application provides the playshoes which can grab the ground and prevent slipping.

The application provides a can grab skid-proof playshoes on ground adopts following technical scheme:

the utility model provides a skid-proof playshoes can grab ground, includes the sole, the sole includes insole and outsole, the lower surface of outsole is equipped with first anti-skidding arch and second anti-skidding arch, first anti-skidding arch with second anti-skidding arch is followed the length direction of outsole sets up in turn, first anti-skidding arch is the loop configuration, first anti-skidding arch inner peripheral surface is the loudspeaker form, the upper surface of outsole is equipped with a plurality of supporting convex block, each supporting convex block's position and each the one-to-one sets up about the bellied position of first anti-skidding, the lower surface of insole be equipped with the spread groove of supporting convex block adaptation.

Through adopting above-mentioned technical scheme, the sole uses, and the main effect of outsole is antifriction, and the main effect of insole is the effect of performance shock attenuation, buffering, and the intensity of outsole is higher than the intensity of insole. The sole is through the first non-slip raised and the second non-slip raised contact ground that are located the outsole, when first non-slip raised and second non-slip raised pressurized, first non-slip raised receives the supporting role of supporting convex block, the second non-slip raised receives the supporting role in insole, make the insole more for easily deforming dodge the second non-slip raised, and supporting convex block non-deformable dodges first non-slip raised, thereby in the sole use, first non-slip raised more is easily to be out of shape than the second non-slip raised, when first non-slip raised pressurized deformation, because first non-slip raised's inner peripheral surface is loudspeaker form, make first non-slip raised comparatively easily take place along radial expansion deformation, form the adsorption of being close the sucking disc after first non-slip raised warp, thereby make first non-slip raised produce adsorption to smooth ground, and then improve the ground gripping anti-slip effect of sole.

Optionally, the second anti-slip protrusions are of a wave-shaped structure, and the wave-shaped extending direction of the second anti-slip protrusions is along the width direction of the outsole.

Through adopting above-mentioned technical scheme, when the second non-slip raised received the frictional force on ground, the second non-slip raised took place to be out of shape to the angle that makes each contained angle of second non-slip raised changes, thereby makes the second non-slip raised deformation force form to embrace tightly the power to ground, is favorable to improving the ground power of grabbing of sole to ground.

Optionally, the lower surface of the outsole is provided with third anti-skidding protrusions at intervals along the edge.

By adopting the technical scheme, the third anti-skidding bulge is arranged at the edge area of the lower surface of the outsole, so that the distribution range of the friction force between the sole and the ground is as far as possible distributed over the range of the tread surface of the sole.

Optionally, the supporting protrusion is in a shape of a circular truncated cone, and a small end of the supporting protrusion faces upwards.

By adopting the technical scheme, the supporting lug is in a round table shape, and the supporting lug can bear load through the end face and can also transmit the load through the outer peripheral surface due to the matching of the shape of the connecting groove and the supporting lug, so that the supporting effect of the supporting lug is favorably improved.

Optionally, the supporting lug and the outsole integrated structure, and an adhesive layer is arranged between the supporting lug and the inner wall of the connecting groove.

By adopting the technical scheme, the supporting lug and the outsole are integrally formed, so that the supporting lug and the midsole are conveniently connected; the supporting convex block is fixed on the upper surface of the outsole, the position between the supporting convex block and the connecting groove is inevitably deviated, the inner walls of the supporting convex block and the connecting groove are bonded through the bonding glue layer, the matching gap generated between the supporting convex block and the connecting groove due to the position deviation can be compensated through the bonding glue layer, and the stability of connection between the supporting convex block and the connecting groove is guaranteed. In addition, the size of the bottom of the connecting groove can be set to be slightly larger than that of the top of the supporting bump, and a gap between the bottom of the connecting groove and the top of the supporting bump can be filled with an adhesive layer.

Optionally, the supporting bump is a hydrogenated nitrile rubber block, and the supporting bump is bonded to the upper surface of the outsole and the inner wall of the connecting groove respectively.

By adopting the technical scheme, the hydrogenated nitrile rubber has excellent compression deformation resistance and can better support the first anti-skid stripes. The supporting lug is different components with the outsole, compare in the supporting lug and the outsole condition of setting up as an organic whole, and the cooperation of supporting lug and spread groove is difficult for receiving the influence of supporting lug position degree on the outsole to be favorable to making the outer peripheral face of supporting lug laminate the inner wall of spread groove as far as possible.

Optionally, a through groove is formed in the lower surface of the outsole, the through groove is located between the heel portion and the front sole portion of the outsole, and the through groove penetrates through the side walls of the two long sides of the outsole.

Through adopting above-mentioned technical scheme, the logical groove that is located outsole lower surface has the weakening effect to the middle part of outsole, and the sole is comparatively easily along with the rise and fall emergence adaptability deformation of wearer's foot at the wearer walking in-process, is favorable to guaranteeing the flexibility in the playshoes use.

Optionally, a plurality of concave pits are formed in the lower surface of the midsole, and the concave pits and the second anti-slip protrusions are arranged in a one-to-one correspondence manner.

Through adopting above-mentioned technical scheme, through setting up the pit, the position that makes the insole be located second non-slip raised top is comparatively easily warp and dodges second non-slip raised to can produce the difference of the more deformation that is showing when making second non-slip raised and first non-slip raised pressurized.

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

1. when the first anti-skid protrusions and the second anti-skid protrusions are pressed, the first anti-skid protrusions are supported by the supporting bumps, the second anti-skid protrusions are supported by the insole, the supporting bumps are not prone to deformation and avoid the first anti-skid protrusions, the first anti-skid protrusions are easier to deform than the second anti-skid protrusions, and the first anti-skid protrusions generate an adsorption effect on a slippery ground when being pressed and deformed, so that the ground grabbing anti-skid effect of the sole is improved;

2. the third anti-skidding bulge is arranged at the edge area of the lower surface of the outsole, so that the distribution range of the friction force between the sole and the ground is as wide as the range of the tread surface of the sole.

Drawings

Fig. 1 is a sectional view of the entire structure of embodiment 1.

Fig. 2 is a schematic structural view of the outsole of example 1.

Figure 3 is a cross-sectional view of the sole structure of example 2.

Description of reference numerals: 1. a sole; 11. a outsole; 111. a through groove; 12. a midsole; 121. connecting grooves; 122. a pit; 2. an upper; 3. a first anti-slip projection; 4. a second anti-slip projection; 5. a third anti-slip bulge; 6. supporting the projection; 7. and (6) bonding the adhesive layer.

Detailed Description

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

Example 1

The embodiment of the application discloses antiskid playshoes can grab ground. Referring to fig. 1, the grip slip-preventing casual shoe comprises a sole 1 and an upper 2, wherein the sole 1 comprises a midsole 12 and an outsole 11, the midsole 12 is made of EVA material, the outsole 11 is made of TPU material, and the midsole 12 is fixedly bonded with the outsole 11.

Referring to fig. 1 and 2, a first anti-slip bulge 3, a second anti-slip bulge 4 and a third anti-slip bulge 5 are convexly arranged on the lower surface of the outsole 11; the third anti-skidding bulges 5 are arranged at intervals along the edge of the lower bottom, and the third anti-skidding bulges 5 are arranged at the edge area of the lower surface of the large bottom 11, so that the distribution range of the friction force between the sole 1 and the ground can be distributed over the range of the tread surface of the sole 1 as far as possible.

Referring to fig. 2, the second nonslip protrusion 4 has a stripe structure, and the second nonslip protrusion 4 extends in a wave-shaped path along the width direction of the outsole 11. When the second antiskid protrusions 4 are subjected to the friction force of the ground, the second antiskid protrusions 4 deform, so that the angles of the sharp corners of the second antiskid protrusions 4 change, the deformation force of the second antiskid protrusions 4 forms holding force on the ground, and the improvement of the ground holding force of the sole 1 on the ground is facilitated.

Referring to fig. 2, the first anti-slip protrusions 3 are provided with a plurality of groups, the plurality of groups of first anti-slip protrusions 3 are sequentially arranged along the length direction of the outsole 11, the number of the first anti-slip protrusions 3 in each group is set to be at least two, two adjacent groups of first anti-slip protrusions 3 are separated by the second anti-slip protrusions 4, even if the second anti-slip protrusions 4 and the first anti-slip protrusions 3 are integrally arranged along the length direction of the outsole 11 in an alternating manner, the first anti-slip protrusions 3 are of an annular structure, the inner circumferential surfaces of the first anti-slip protrusions 3 are horn-shaped, the upper surface of the outsole 11 is provided with a plurality of supporting lugs 6, the positions of the supporting lugs 6 and the positions of the first anti-slip protrusions 3 are arranged in an up-down one-to-one correspondence manner, and the lower surface of the midsole 12 is provided with connecting grooves 121 adapted to the supporting lugs 6.

First non-slip raised 3 and second non-slip raised 4 when compressed, first non-slip raised 3 receives the supporting role of supporting convex block 6, second non-slip raised 4 receives the supporting role of insole 12, make insole 12 dodge second non-slip raised 4 for easily deforming, and supporting convex block 6 non-deformable dodges first non-slip raised 3, thereby in 1 use of sole, first non-slip raised 3 is more easily out of shape than second non-slip raised 4, produce absorbent effect to smooth ground when first non-slip raised 3 is compressed and is out of shape.

Referring to fig. 1, the supporting protrusion 6 is in a circular truncated cone shape, the small end of the supporting protrusion 6 faces upward, the supporting protrusion 6 and the outsole 11 are in an integrated structure, the supporting protrusion 6 and the inner wall of the connecting groove 121 are bonded and fixed through glue, the glue between the supporting protrusion 6 and the connecting groove 121 forms a bonding glue layer 7, and the bonding glue layer 7 can fill a fit gap between the supporting protrusion 6 and the connecting groove 121.

Referring to fig. 1, the lower surface of the midsole 12 is provided with a plurality of recesses 122, and the recesses 122 are disposed in one-to-one correspondence with the second stud bumps 4. The concave pits 122 weaken the strength of the part of the midsole 12 corresponding to the second stud 4, so that the midsole 12 is more easily deformed to avoid the second stud 4.

Referring to fig. 1, the lower surface of outsole 11 is provided with a through groove 111 penetrating through both long sides of outsole 11, and through groove 111 is located between the heel portion and the forefoot portion of outsole 11. The through grooves 111 weaken the strength of the outsole 11 corresponding to the arch of the wearer's foot, and make the outsole 11 more easily adapt to the shape change of the foot when the wearer walks.

The implementation principle of the antiskid playshoes that can grab the ground in this application embodiment is: sole 1 is through the first non-slip raised 3 and the contact ground of second non-slip raised 4 that lie in big end 11, first non-slip raised 3 and second non-slip raised 4 are under human action of gravity the compression deformation, wherein first non-slip raised 3 receives the supporting role of supporting lug 6, supporting lug 6 non-deformable dodges first non-slip raised 3, make first non-slip raised 3 more easily warp than second non-slip raised 4, produce adsorption to smooth ground after first non-slip raised 3 warp, be favorable to improving sole 1 grab ground non-slip effect.

Example 2

Referring to fig. 3, the present embodiment is different from embodiment 1 in that: the supporting convex block 6 is made of hydrogenated nitrile rubber, different components are arranged between the supporting convex block 6 and the outsole 11, and the supporting convex block 6 is respectively bonded with the upper surface of the outsole 11 and the inner wall of the connecting groove 121. The hydrogenated nitrile rubber has excellent compression deformation resistance and can better support the first anti-skid stripes.

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 (8)

1. A grip antiskid playshoe, includes sole (1), sole (1) includes insole (12) and outsole (11), its characterized in that: the lower surface of outsole (11) is equipped with first anti-skidding arch (3) and second anti-skidding arch (4), first anti-skidding arch (3) with second anti-skidding arch (4) are followed the length direction of outsole (11) sets up in turn, first anti-skidding arch (3) are the loop configuration, the inner peripheral surface of first anti-skidding arch (3) is the loudspeaker form, the upper surface of outsole (11) is equipped with a plurality of supporting lug (6), each supporting lug's (6) position and each the one-to-one sets up about the position of first anti-skidding arch (3), the lower surface of insole (12) be equipped with supporting lug's (6) adaptation spread groove (121).

2. A graspable, anti-slip casual shoe, as set forth in claim 1, wherein: the second anti-skid protrusions (4) are of a wave-shaped structure, and the wave-shaped extending direction of the second anti-skid protrusions (4) is along the width direction of the outsole (11).

3. A graspable, non-slip casual shoe as set forth in claim 1, wherein: and third anti-skidding bulges (5) are arranged on the lower surface of the outsole (11) at intervals along the edge.

4. A graspable, anti-slip casual shoe, as set forth in claim 1, wherein: the supporting convex block (6) is in a circular truncated cone shape, and the small end of the supporting convex block (6) faces upwards.

5. A graspable, anti-slip casual shoe, as set forth in claim 4, wherein: the supporting lug (6) and the outsole (11) are of an integrated structure, and a bonding glue layer (7) is arranged between the supporting lug (6) and the inner wall of the connecting groove (121).

6. A graspable, anti-slip casual shoe, as set forth in claim 4, wherein: the supporting convex blocks (6) are hydrogenated nitrile-butadiene rubber blocks, and the supporting convex blocks (6) are respectively bonded with the upper surface of the outsole (11) and the inner wall of the connecting groove (121).

7. A graspable, non-slip casual shoe as set forth in claim 1, wherein: the lower surface of the outsole (11) is provided with a through groove (111), the through groove (111) is located between the heel part and the front sole part of the outsole (11), and the through groove (111) penetrates through the side walls of two long sides of the outsole (11).

8. A graspable, non-slip casual shoe as set forth in claim 1, wherein: the lower surface of the middle sole (12) is provided with a plurality of concave pits (122), and the concave pits (122) are arranged in one-to-one correspondence with the second anti-skid protrusions (4).

Images