CN216089162U - Anti-slip sole for ice ground - Google Patents

Abstract

The utility model belongs to the technical field of soles, and particularly relates to an ice ground anti-skidding sole which comprises a sole body, wherein a first mounting groove is formed in the lower surface of the front end of the sole body, a third sliding groove is formed in the lower surface of the rear end of the sole body, a second anti-skidding strip is fixedly connected to the lower surface of the sole body, anti-skidding components are fixedly connected to the third sliding grooves and the lower surface of the front end of the sole body, and each anti-skidding component comprises a connecting cylinder. This ice ground antiskid sole through setting up a plurality of first non slipping spur, the opposite second non slipping spur of multiunit orientation and anti-skidding part, has reached and has carried out preliminary antiskid to the sole body through first non slipping spur, further increases the anti-skidding ability of sole body through the opposite second non slipping spur of orientation, and at last, through the flexible in-process of telescopic link, prick into the ice layer through grabbing the ground nail, and then increase the sole body to the effect of grabbing the land fertility of ice surface.

Description

Anti-slip sole for ice ground

Technical Field

The utility model relates to the technical field of soles, in particular to an anti-skidding sole for an ice ground.

Background

The sole is rather complex in construction and in a broad sense may include all of the materials forming the sole, such as the outsole, midsole and heel. In a narrow sense, only the outsole is referred to, and the common characteristics of the general sole materials should have the characteristics of wear resistance, water resistance, oil resistance, heat resistance, pressure resistance, impact resistance, good elasticity, easy adaptation to the foot shape, difficult deformation after shaping, heat preservation, easy moisture absorption and the like, and simultaneously should be matched with the midsole to have the brake function of preventing slipping and easy stopping when the foot is changed during walking. The sole materials are of various types and can be divided into natural base materials and synthetic base materials. The natural bottom materials comprise natural bottom leather, bamboo and wood, and the synthetic bottom materials comprise rubber, plastics, rubber and plastic combined materials, regenerated leather and elastic hardboard;

most anti-skidding soles in life only carry out the antiskid to glossy ground, through the frictional force that increases the sole, but this type of sole still can skid when walking on the ice surface, leads to the user to skid, has reduced the non-slip ability of anti-skidding sole.

SUMMERY OF THE UTILITY MODEL

The utility model provides an ice ground anti-skidding sole based on the technical problems that when an existing sole walks on an ice surface, the existing sole still slips to cause a user to slip, and the anti-skidding capacity of the anti-skidding sole is reduced.

The utility model provides an ice ground anti-skidding sole which comprises a sole body, wherein a first mounting groove is formed in the lower surface of the front end of the sole body, a third sliding groove is formed in the lower surface of the rear end of the sole body, a second anti-skidding strip is fixedly connected to the lower surface of the sole body, a plurality of third sliding grooves and anti-skidding parts are fixedly connected to the lower surfaces of the front ends of the sole body, and each anti-skidding part comprises a connecting cylinder.

Preferably, the inner walls of the first mounting grooves are provided with second mounting grooves, and the inner walls of the first mounting grooves and the inner walls of the second mounting grooves are communicated with each other to form a grid shape;

through above-mentioned technical scheme, reached and split into latticedly with sole body front end through first mounting groove and second mounting groove, and then be convenient for install anti-skidding structure in the effect of the below of sole body.

Preferably, the inner walls of the first mounting grooves are fixedly connected with first anti-slip strips, and the lower surfaces of the first anti-slip strips are fixedly connected with first anti-slip blocks in I-shaped structures;

through above-mentioned technical scheme, reached and connected a plurality of first non slipping spur through first antislip strip for the orderly effect of arranging on the sole body of first non slipping spur.

Preferably, the inner walls of the second mounting grooves are fixedly connected with second anti-skid blocks, and the directions of the second anti-skid blocks in two adjacent second mounting grooves are opposite;

through above-mentioned technical scheme, reached through the effect that increases the frictional force between sole body and the ice surface of the first non slipping spur of the opposite multiunit of orientation.

Preferably, the inner wall of the connecting cylinder is movably sleeved with a telescopic rod, and the outer surface of the lower end of the telescopic rod is in a trapezoidal conical shape;

through above-mentioned technical scheme, reached the telescopic link and slided in the connecting cylinder for the people is at the ice surface walking in-process, and control telescopic link produces flexible effect along with lifting up and falling of foot.

Preferably, the upper surface of the telescopic rod is fixedly connected with a compression spring, and the free end of the compression spring is fixedly connected with the inner top wall of the connecting cylinder;

through above-mentioned technical scheme, reached and made the telescopic link along with the lift of foot and fall the effect that stretches out and draws back in the connecting cylinder through compression spring.

Preferably, the lower surface of the telescopic rod is fixedly connected with ground grabbing nails, and a plurality of ground grabbing nails are uniformly distributed in an annular array;

through above-mentioned technical scheme, reached at the flexible in-process of telescopic link, pricked into the ice layer through grabbing the ground nail, and then increased the sole body to the effect of the land fertility of grabbing of ice surface.

The beneficial effects of the utility model are as follows:

through setting up a plurality of first non slipping spur, the opposite second non slipping spur of multiunit orientation and anti-skidding part, reached and carried out preliminary antiskid to the sole body through first non slipping spur, further increase the anti-skidding ability of sole body through the opposite second non slipping spur of orientation, at last, through the flexible in-process of telescopic link, prick into the ice layer through grabbing the ground nail, and then increase the effect of the sole body to the land fertility of grabbing of ice surface.

Drawings

FIG. 1 is a schematic view of an anti-slip sole for ice ground according to the present invention;

FIG. 2 is a plan view of an anti-slip sole for ice ground according to the present invention;

fig. 3 is a cross-sectional view of a telescopic rod structure of an anti-slip sole for ice ground according to the present invention.

In the figure: 1. a sole body; 2. a first mounting groove; 3. a third chute; 4. a second cleat; 5. a connecting cylinder; 6. a second mounting groove; 7. a first cleat; 8. a first anti-skid block; 9. a second anti-skid block; 10. a telescopic rod; 11. a compression spring; 12. and (5) grabbing ground nails.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, an anti-skid sole for ice ground comprises a sole body 1, wherein a first mounting groove 2 is formed in the lower surface of the front end of the sole body 1, a second mounting groove 6 is formed in each of the inner walls of a plurality of first mounting grooves 2, the inner walls of the plurality of first mounting grooves 2 are communicated with the inner walls of the plurality of second mounting grooves 6 to form a grid shape, so that the effect of dividing the front end of the sole body 1 into grids through the first mounting grooves 2 and the second mounting grooves 6 to facilitate mounting an anti-skid structure below the sole body 1 is achieved;

furthermore, the inner walls of the first mounting grooves 2 are fixedly connected with first anti-skid strips 7, the lower surfaces of the first anti-skid strips 7 are fixedly connected with first anti-skid blocks 8 in an I-shaped structure, and the effect that the first anti-skid blocks 8 are connected through the first anti-skid strips 7, so that the first anti-skid blocks 8 are orderly arranged on the sole body 1 is achieved;

furthermore, the inner walls of the second mounting grooves 6 are fixedly connected with second anti-skid blocks 9, the directions of the second anti-skid blocks 9 in two adjacent second mounting grooves 6 are opposite, and the effect of increasing the friction force between the sole body 1 and the ice surface through multiple groups of second anti-skid blocks 9 with opposite directions is achieved;

third spout 3 has been seted up to the rear end lower surface of sole body 1, the lower fixed surface of sole body 1 is connected with second antislip strip 4, and is a plurality of third spout 3 with the equal fixedly connected with antiskid unit of lower surface of sole body 1 front end, antiskid unit includes connecting cylinder 5, telescopic link 10 has been cup jointed in the inner wall activity of connecting cylinder 5, the lower extreme outward appearance of telescopic link 10 is trapezoidal coniform, has reached that telescopic link 10 slides in connecting cylinder 5 for the people is at the ice surface walking in-process, and control telescopic link 10 is along with lifting up and falling down of foot and produce flexible effect.

Further, the upper surface of the telescopic rod 10 is fixedly connected with a compression spring 11, the free end of the compression spring 11 is fixedly connected with the inner top wall of the connecting cylinder 5, and the effect that the telescopic rod 10 stretches and retracts in the connecting cylinder 5 along with the lifting and falling of the foot through the compression spring 11 is achieved.

Further, the lower surface fixedly connected with of telescopic link 10 grabs ground nail 12, and is a plurality of it is annular even array distribution to grab ground nail 12, has reached at the flexible in-process of telescopic link 10, pricks into the ice sheet through grabbing ground nail 12 in, and then increases the effect of sole body 1 to the land fertility of grabbing of ice surface.

Reached and carried out preliminary antiskid to sole body 1 through first non slipping spur 8, further increased sole body 1's anti-skidding ability through the second non slipping spur 9 opposite orientation, at last, through the flexible in-process of telescopic link 10, prick into the ice sheet through grabbing ground nail 12 in, and then increased sole body 1 to the effect of grabbing the land fertility of ice surface.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (7)

1. The utility model provides an ice ground antiskid sole, includes sole body (1), its characterized in that: first mounting groove (2) have been seted up to the front end lower surface of sole body (1), third spout (3) have been seted up to the rear end lower surface of sole body (1), the lower fixed surface of sole body (1) is connected with second antislip strip (4), and is a plurality of third spout (3) with the equal fixedly connected with antiskid unit of lower surface of sole body (1) front end, antiskid unit includes connecting cylinder (5).

2. An ice skating shoe sole as claimed in claim 1, wherein: a plurality of second mounting groove (6) have all been seted up to the inner wall of first mounting groove (2), and are a plurality of the inner wall of first mounting groove (2) and the inner wall of a plurality of second mounting groove (6) communicate each other and form the grid shape.

3. An ice skating shoe sole as claimed in claim 1, wherein: a plurality of first antislip strip (7) of the equal fixedly connected with of inner wall of first mounting groove (2), the lower fixed surface of first antislip strip (7) is connected with first non slipping spur (8) that is the I-shaped structure.

4. An ice skating shoe sole as claimed in claim 2, wherein: the inner walls of the second mounting grooves (6) are fixedly connected with second anti-skidding blocks (9), and the directions of the second anti-skidding blocks (9) in the two adjacent second mounting grooves (6) are opposite.

5. An ice skating shoe sole as claimed in claim 1, wherein: the inner wall of the connecting cylinder (5) is movably sleeved with a telescopic rod (10), and the outer surface of the lower end of the telescopic rod (10) is in a trapezoidal conical shape.

6. An ice skating shoe sole as claimed in claim 5, wherein: the upper surface of telescopic link (10) fixed connection has compression spring (11), the free end of compression spring (11) with the interior roof fixed connection of connecting cylinder (5).

7. An ice skating shoe sole as claimed in claim 5, wherein: the lower surface fixedly connected with of telescopic link (10) grabs ground nail (12), and is a plurality of grab ground nail (12) and be annular even array distribution.

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