CN215189666U - Supercritical dual dynamic cushioning outsole - Google Patents

Abstract

The utility model relates to a sole technical field especially relates to a super critical dual dynamic bradyseism outsole, including outsole body, the part that sole, arch of foot and back heel correspond before definition outsole body and human is preceding sole portion, arch of foot portion and back heel portion respectively, outsole body adopts high-elastic foaming EVA to make, outsole body's side is equipped with the recess that a plurality of sizes differ and be three arris pyramids in arch of foot portion and back heel portion respectively, each not parallel and dislocation set between the recess, outsole body's lower surface bonding has the antiskid end of being made by rubber. The utility model discloses set up the recess of triangular pyramid taper in big end body side, utilize the special attribute of the high-elastic foaming EVA material of reaction force between the triangle-shaped tangent plane and cooperation in the recess, can reach dual bradyseism effect in the motion process, the more ordinary running shoes of boosting promote 10%, the high-elastic foaming EVA's in insole weight ratio ordinary EVA weight reduces 15-20%, combines about dual attribute motion process can reduce power consumption 20%.

Description

Supercritical dual dynamic cushioning outsole

Technical Field

The utility model relates to a sole technical field especially relates to a dual dynamic bradyseism outsole of supercritical.

Background

At present, with the continuous progress of society, various foot protection tools come into play, such as sports shoes, leather shoes and other shoes, and whether the shoes are comfortable to wear is a necessary consideration for people to select the shoes. Taking sports shoes as an example, it is known that sports shoes are one of the shoes that modern people prefer to wear, especially when doing outdoor sports. The existing sports shoes comprise soles, uppers connected with the soles and insoles arranged on the soles, the safety of the soles is emphasized, and the soles often have poor damping effect and hurt bodies.

SUMMERY OF THE UTILITY MODEL

Therefore, in view of the above problems, the present invention provides a supercritical dual dynamic cushioning outsole.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a super critical dual dynamic bradyseism outsole, includes outsole body, and the part that sole, arch of foot and back heel correspond before the definition outsole body and human is preceding sole portion, arch of foot portion and back heel portion respectively, outsole body adopts high-elastic foaming EVA to make, the side of outsole body is equipped with a plurality of recesses that differ in size and be three arriss pyramids respectively in arch of foot portion and back heel portion, each non-parallel and dislocation set between the recess, the lower surface bonding of outsole body has the antiskid end of being made by rubber.

The improved shoe sole is characterized in that the anti-slip sole comprises a first anti-slip part and a second anti-slip part, the first anti-slip part is arranged at the front sole part of the outsole body, the second anti-slip part is arranged at the rear heel part of the outsole body, a plurality of first anti-slip grooves are formed in the first anti-slip part and the second anti-slip part at intervals along the length direction of the outsole body, and a plurality of second anti-slip grooves are formed in the first anti-slip part and the second anti-slip part at intervals along the width direction of the outsole body.

Further improved, a thin anti-slip groove is arranged between every two adjacent first anti-slip grooves.

Further improve, first antiskid portion and second antiskid portion all are provided with multichannel fretwork along outsole body width direction interval.

In a further improvement, the first antiskid part and the second antiskid part are connected through a connecting part.

In a further improvement, the concave depth of the first anti-skid groove and the concave depth of the second anti-skid groove are both 1/2-3/4 of the thickness of the anti-skid bottom.

By adopting the technical scheme, the beneficial effects of the utility model are that: the utility model is provided with the triangular pyramid-shaped groove on the side surface of the outsole body, and can achieve double cushioning effect in the movement process by utilizing the reaction force between the triangular tangent planes in the groove and matching with the special attribute of the high-elasticity foaming EVA material, the boosting force is improved by 10 percent compared with the common running shoes, the weight of the high-elasticity foaming EVA of the insole is reduced by 15 to 20 percent compared with the weight of the common EVA, and the energy consumption can be reduced by about 20 percent by combining the double attribute movement process; furthermore, the anti-skid bottom is provided with the first anti-skid grooves and the second anti-skid grooves in a staggered manner, so that the first anti-skid grooves and the second anti-skid grooves also play a role in drainage when playing an anti-skid role; furthermore, the ground gripping force of the anti-skid bottom can be enhanced by the arrangement of the thin anti-skid grooves; furthermore, due to the hollow arrangement, the production cost is effectively saved under the condition that the stress point of the anti-skid bottom is not influenced; furthermore, the first anti-skid part and the second anti-skid part are connected through the connecting part, so that the integral shape of the anti-skid bottom is ensured, and the complexity of the production process is reduced; furthermore, the depth of the first anti-slip groove and the second anti-slip groove is 1/2-3/4 of the thickness of the anti-slip bottom, so that the grip force and the anti-slip force of the anti-slip bottom are further ensured.

Drawings

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

fig. 2 is a schematic bottom view of the embodiment of the present invention.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and detailed description.

Referring to fig. 1-2, the embodiment provides a supercritical dual dynamic cushioning outsole, which includes an outsole body 1, wherein the portions of the outsole body 1 corresponding to the front sole, the arch and the heel of the human body are respectively a front sole portion, an arch portion and a rear heel portion, the outsole body 1 is made of high-elastic foamed EVA, a plurality of grooves 11 with different sizes and a triangular cone shape are respectively arranged on the arch portion and the rear heel portion of the side of the outsole body 1, the grooves 11 are not parallel to each other and are arranged in a staggered manner, and an anti-slip sole made of rubber is bonded on the lower surface of the outsole body 1.

The anti-slip sole comprises a first anti-slip part 21 arranged on the front sole part of the outsole body 1 and a second anti-slip part 22 arranged on the rear heel part of the outsole body, the first anti-slip part 21 and the second anti-slip part 22 are connected through a connecting part 23, a plurality of first anti-slip grooves 201 are formed in the first anti-slip part 21 and the second anti-slip part 22 at intervals along the length direction of the outsole body, a thin anti-slip groove 203 is formed between every two adjacent first anti-slip grooves, a plurality of second anti-slip grooves 202 are formed in the first anti-slip part 21 and the second anti-slip part 22 at intervals along the width direction of the outsole body 1, and the recessed depths of the first anti-slip grooves 201 and the second anti-slip grooves 202 are 2/3 of the thickness of the anti-slip sole.

Meanwhile, the first anti-slip part 21 and the second anti-slip part 22 are both provided with a plurality of hollow parts 204 at intervals along the width direction of the outsole body 1.

In practical applications, the recessed depth of the first anti-slip groove 201 and the second anti-slip groove 202 can be any value between 1/2 and 3/4 of the anti-slip bottom thickness, which can also achieve the purpose of the present invention.

The utility model is provided with the triangular pyramid-shaped groove on the side surface of the outsole body, and can achieve double cushioning effect in the movement process by utilizing the reaction force between the triangular tangent planes in the groove and matching with the special attribute of the high-elasticity foaming EVA material, the boosting force is improved by 10 percent compared with the common running shoes, the weight of the high-elasticity foaming EVA of the insole is reduced by 15 to 20 percent compared with the weight of the common EVA, and the energy consumption can be reduced by about 20 percent by combining the double attribute movement process; furthermore, the anti-skid bottom is provided with the first anti-skid grooves and the second anti-skid grooves in a staggered manner, so that the first anti-skid grooves and the second anti-skid grooves also play a role in drainage when playing an anti-skid role; furthermore, the ground gripping force of the anti-skid bottom can be enhanced by the arrangement of the thin anti-skid grooves; furthermore, due to the hollow arrangement, the production cost is effectively saved under the condition that the stress point of the anti-skid bottom is not influenced; furthermore, the first anti-skid part and the second anti-skid part are connected through the connecting part, so that the integral shape of the anti-skid bottom is ensured, and the complexity of the production process is reduced; furthermore, the depth of the first anti-slip groove and the second anti-slip groove is 1/2-3/4 of the thickness of the anti-slip bottom, so that the grip force and the anti-slip force of the anti-slip bottom are further ensured.

It should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. The utility model provides a dual dynamic bradyseism outsole of supercritical, includes outsole body, and the part that definition outsole body and human preceding sole, arch of foot and back heel correspond is preceding sole portion, arch of foot portion and back heel portion respectively, its characterized in that: the outsole body is made of high-elastic foaming EVA (ethylene-vinyl acetate copolymer), a plurality of grooves which are different in size and are triangular cone-shaped are respectively arranged on the side edge of the outsole body at the arch part and the heel part, the grooves are not parallel to each other and are arranged in a staggered manner, and the anti-skidding bottom made of rubber is bonded on the lower surface of the outsole body.

2. The supercritical dual dynamic seismic outsole of claim 1, wherein: the anti-skidding sole comprises a first anti-skidding portion and a second anti-skidding portion, the first anti-skidding portion is arranged at the front sole portion of the outsole body, the second anti-skidding portion is arranged at the rear heel portion of the outsole body, a plurality of first anti-skidding grooves are formed in the first anti-skidding portion and the second anti-skidding portion at intervals along the length direction of the outsole body, and a plurality of second anti-skidding grooves are formed in the first anti-skidding portion and the second anti-skidding portion at intervals along the width direction of the outsole body.

3. The supercritical dual dynamic cushioning outsole of claim 2, wherein: and a thin anti-slip groove is arranged between every two adjacent first anti-slip grooves.

4. The supercritical dual dynamic cushioning outsole of claim 2, wherein: first antiskid portion and second antiskid portion all are provided with the multichannel fretwork along outsole body width direction interval.

5. The supercritical dual dynamic cushioning outsole of claim 2, wherein: the first anti-slip part and the second anti-slip part are connected through a connecting part.

6. A supercritical dual dynamic seismic outsole according to any one of claims 2 to 5 wherein: the concave depth of the first anti-skid groove and the concave depth of the second anti-skid groove are 1/2-3/4 of the thickness of the anti-skid bottom.

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