CN211672665U

CN211672665U - Antiskid sole structure

Info

Publication number: CN211672665U
Application number: CN202020173357.0U
Authority: CN
Inventors: 汪士杰; 胡杰; 黄聪杰; 陈辉; 王淑燕
Original assignee: Ningbo Jinsui Rubber And Plastic Co ltd
Current assignee: Ningbo Jinsui Rubber And Plastic Co ltd
Priority date: 2020-02-15
Filing date: 2020-02-15
Publication date: 2020-10-16
Anticipated expiration: 2030-02-15

Abstract

The utility model provides an antiskid sole structure, including can with the vamp, the sole body that the back group is connected, the sole body includes the antiskid body that is formed by the preparation of polyurethane material, both ends are provided with respectively can with the shoes body fixed connection convex part mutually around the antiskid body, it has the non-slip raised to distribute on the bottom surface of antiskid body, the non-slip raised is protruding including horizontal setting and vertical interval distribution's first arch and vertical setting and horizontal interval distribution's second, first arch is crisscross in proper order with the second arch and is connected for the grid structure. The utility model has the advantages that: the antiskid body has light weight, strong toughness and difficult abrasion; first arch and second arch are latticed distribution, strengthen the firm degree of anti-skidding body to improve anti-skidding performance, thereby obtain frivolous, comfortable and easy to wear, the anti-skidding sole structure that antiskid nature is good.

Description

Antiskid sole structure

Technical Field

The utility model relates to a sports shoes preparation technical field especially indicates an antiskid sole structure.

Background

The prior Chinese utility model patent with the application number of CN200820159147.5 entitled "A perforation ventilation and heat dissipation massage sole" discloses a perforation ventilation and heat dissipation massage sole, wherein spaced vent holes are arranged on the sole body, and uniformly distributed V-shaped air gathering grooves are arranged on the bottom surface of the sole body. However, the anti-slip effect of the sole is still not ideal, and the sole is still thick, heavy, and not light enough, so the structure of the sole needs to be further improved.

Disclosure of Invention

The utility model aims to solve the technical problem that to above-mentioned prior art current situation and provide a simple structure, light in weight, light and antiskid, excellent in use effect's antiskid sole structure of wearing.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: this antiskid sole structure, including the sole body that can be connected with vamp, back group, its characterized in that: the sole body includes the anti-skidding body that is formed by the preparation of polyurethane material both ends are provided with respectively around the anti-skidding body can with the shoes body fixed connection convex part mutually distribute on the bottom surface of anti-skidding body has the non-slip raised, the non-slip raised including horizontal setting and vertical interval distribution's first arch and vertical setting and horizontal interval distribution's second arch, first arch is crisscross in proper order with the second arch and is connected for the grid structure.

As a modification, the antiskid body, the connecting convex portion, the first projection, and the second projection may preferably be an integral structure made in one piece.

Further improved, when the sole body is applied to the beach shoes, the bottom surface of the latticed antiskid body enclosed by the first bulges and the second bulges can be preferably provided with ventilation through holes which can reduce the weight of the sole body.

As an improvement, the thickness of the first protrusion can be preferably larger than that of the second protrusion, and the thickness from the top surface of the antiskid body to the bottom surface of the first protrusion is 4-7 mm.

In a further improvement, the bottom surface of the first protrusion may preferably be a circular arc surface, and the bottom surface of the second protrusion is a plane.

In a further refinement, the first projection may preferably be a first arcuate projection projecting medially toward a forward end of the sole structure.

In a further development, the second projection may preferably be a second arc-shaped projection of which the middle portion projects toward the outer instep side of the sole.

As a modification, a weight-reduction through hole may be preferably provided on the antiskid body corresponding to the arch portion of the sole of the foot.

As a modification, a sole convex portion may be preferably provided on a bottom surface of the antiskid body corresponding to a heel portion of the sole of the foot.

In a further improvement, the bottom surfaces of the raised portions of the sole and the bottom surfaces of the cleats may preferably be flush.

Compared with the prior art, the utility model has the advantages of: the antiskid body is made of polyurethane material, so that the antiskid body is light in weight, strong in toughness and not easy to wear; the anti-skid bulges play a role in skid resistance, and the first bulges and the second bulges are distributed in a grid shape, so that the firmness degree of the anti-skid body is enhanced, and the anti-skid performance is improved, and therefore, an anti-skid sole structure which is light, thin, comfortable to wear and good in anti-skid performance is obtained; the anti-skid protrusions are not linear but arc-shaped, more sole surfaces can be covered, the anti-skid effect is better, meanwhile, the connection points of the first protrusions and the second protrusions which are staggered are more uniformly distributed, the strength of the sole structure can be further enhanced, and the service life of the sole structure is prolonged; the sole arch part is not directly contacted with the sole, so that the anti-skid body corresponding to the sole arch part can be preferably provided with weight-reducing through holes, and the weight of the anti-skid body is further reduced; the convex part of the sole corresponds to the heel of the foot sole, so that the foot is comfortable to tread and convenient to walk.

Drawings

Fig. 1 is a top view of an embodiment of the present invention;

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

fig. 3 is a perspective view of an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 3, the anti-slip sole structure of the embodiment includes a sole body that can be connected with a vamp and a heel, the sole body includes an anti-slip body 1 made of polyurethane material, the connecting convex parts 12 that can be fixed with the shoe body are respectively arranged at the front and the rear ends of the anti-slip body 1, anti-slip protrusions are distributed on the bottom surface of the anti-slip body 1, and the anti-slip protrusions include first protrusions 13 that are transversely arranged and vertically distributed at intervals and second protrusions 14 that are vertically arranged and transversely distributed at intervals. The first protrusions 13 and the second protrusions 14 are sequentially staggered and connected to form a grid structure. The antiskid body 1, the connecting convex part 12, the first protrusion 13 and the second protrusion 14 are an integral structure made in one piece. When the sole body is applied to the beach shoes, the bottom surface of the latticed antiskid body enclosed by the first bulges and the second bulges is provided with the ventilation through holes 11 which can reduce the weight of the sole body.

The thickness of the first bulges 13 is larger than that of the second bulges 14, and the thickness from the top surface of the antiskid body 1 to the bottom surface of the first bulges 13 is 4-7 mm. The bottom surface of the first protrusion 13 is a circular arc surface, and the bottom surface of the second protrusion 14 is a plane. First projection 13 is a first arcuate projection with a medial portion projecting toward a forward end of the sole structure. The second projection 14 is a second arc-shaped projection having a medial portion projecting toward the instep side of the sole. Weight-reducing through holes 15 are provided in the antiskid body 1 corresponding to the arch portion of the sole of the foot. A sole convex portion 16 is provided on the bottom surface of the antiskid body 1 corresponding to the heel of the sole of the foot. The bottom surface of the raised sole portion 16 is flush with the bottom surface of the stud.

Claims

1. The utility model provides an antiskid sole structure, includes the sole body that can be connected with vamp, back group, its characterized in that: the sole body includes anti-skidding body (1) that is formed by the preparation of polyurethane material both ends are provided with respectively around anti-skidding body (1) can with the shoes body fixed connection convex part (12) mutually distribute on the bottom surface of anti-skidding body (1) has the non-skid protrusions, the non-skid protrusions is including horizontal setting and vertical interval distribution's first arch (13) and vertical setting and horizontal interval distribution's second arch (14), first arch (13) are crisscross in proper order with second arch (14) and are connected as the grid structure.

2. The non-slip sole structure according to claim 1, wherein: the anti-skid body (1), the connecting convex part (12), the first bulge (13) and the second bulge (14) are of an integrated structure.

3. The non-slip sole structure according to claim 2, wherein: when the sole body is applied to the beach shoes, the bottom surface of the latticed antiskid body enclosed by the first bulges and the second bulges is provided with the ventilation through holes (11) which can reduce the weight of the sole body.

4. The non-slip sole structure according to any one of claims 1 to 3, wherein: the thickness of the first bulges (13) is larger than that of the second bulges (14), and the thickness from the top surface of the antiskid body (1) to the bottom surface of the first bulges (13) is 4-7 mm.

5. The non-slip sole structure according to claim 4, wherein: the bottom surface of the first bulge (13) is a circular arc surface, and the bottom surface of the second bulge (14) is a plane.

6. The non-slip sole structure according to claim 4, wherein: the first bulge (13) is a first arcuate bulge with a medial portion bulging toward a front end of the sole structure.

7. The non-slip sole structure according to claim 4, wherein: the second bulge (14) is a second arc-shaped bulge with the middle part bulging to one side of the instep outside the sole.

8. The non-slip sole structure according to any one of claims 1 to 3, wherein: a weight-reducing through hole (15) is arranged on the antiskid body (1) corresponding to the arch part of the sole of the foot.

9. The non-slip sole structure according to any one of claims 1 to 3, wherein: a sole convex part (16) is arranged on the bottom surface of the antiskid body (1) corresponding to the heel part of the sole.

10. The non-slip sole structure according to claim 9, wherein: the bottom surfaces of the sole convex parts (16) are flush with the bottom surfaces of the anti-skid bulges.