CN217658391U - Shell bionic walking stabilizing shoe outsole - Google Patents

Abstract

The utility model discloses a bionical steady step shoes outsole of shell, outsole include heel portion, shoe heart portion and half-sole portion, the middle part of shoe heart portion position bottom is from both sides internal contraction formation shoe heart groove, the middle part in shoe heart groove has bionical shell structure, the pitch arc edge of bionical shell structure is close to the outside of shoe heart portion, the both sides port department in shoe heart groove is the notch of bionical half shell shape, it has a plurality of bar lines to distribute on the inner wall of notch, bar line is towards bionical shell structure. The utility model discloses shoes core portion adopts bionical shell structure, and the form of simulation shell and the line of shell distribute, and the fine physical stress effect of having borrowed the shell form of little protruding form provides required holding power for outsole shoes core, increases substantially the travelling comfort and the stability of sole.

Description

Shell bionic walking stabilizing shoe outsole

Technical Field

The utility model belongs to the technical field of the sole, especially, relate to a bionic steady shoes outsole of shell.

Background

At present, a plurality of soles of various bionic animal soles, such as soles imitating tiger palms, soles imitating elephant palms, soles imitating leopard palms and the like, mainly aim at improving the comfort and stability of the soles.

At present, no bionic sole exists, and the comfort and the stability of the sole can be greatly improved on the basis of non-bionic ground animal soles.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that not enough among the above-mentioned prior art is directed against, provide a bionical steady step shoes outsole of shell, shoe core portion adopts bionical shell structure, and the form of simulation shell and the line of shell distribute, and the fine physical stress effect of having borrowed the shell form of little protruding form provides required holding power for outsole shoe core, increases substantially the travelling comfort and the stability of sole.

In order to solve the technical problem, the utility model adopts the technical scheme that: the utility model provides a bionical steady step shoes outsole of shell, the outsole includes heel portion, shoe heart portion and half sole portion, the middle part position bottom of shoe heart portion forms shoe heart groove from both sides internal contraction, the middle part in shoe heart groove has bionical shell structure, the pitch arc edge of bionical shell structure is close to the outside of shoe heart portion, the both sides port department in shoe heart groove is the notch of bionical half shell shape, it has a plurality of bar lines to distribute on the inner wall of notch, the bar line is towards bionical shell structure.

Above-mentioned bionic steady step of shell shoes outsole, shoe core groove outside recess department and shoe core groove middle part are a monoblock TPU piece, a plurality of bar lines and the bionic shell structure of shoe core groove outside recess department all are on the TPU piece.

The shell bionic walking-stabilizing shoe outsole is characterized in that the bottom surface of the half sole portion is provided with three transverse grooves, and the three transverse grooves are uniformly distributed from front to back.

Above-mentioned bionic steady step sole of shell, seted up vertical groove on the preceding palm portion bottom surface, the middle part in the rear end intercommunication shoe core groove of vertical groove, the front end in vertical groove extends to the transverse groove of foremost side, vertical groove is by the inboard skew of backward forward to the sole gradually.

The bionic walking-stabilizing shoe outsole made of the shells is characterized in that a plurality of half sole bulges are fully distributed in the non-transverse grooves and non-longitudinal grooves of the bottom surface of the half sole part, and the surfaces of the half sole bulges are provided with corrugated grains.

The shell bionic walking stabilizing shoe outsole is characterized in that a heel groove is formed in the middle of the heel portion, and the front end of the heel groove is communicated with the middle of the shoe core groove.

The shell bionic walking stabilizing shoe outsole is characterized in that a plurality of heel bulges are distributed in the area, not provided with the heel grooves, of the heel part, and the surfaces of the heel bulges are provided with corrugated lines.

The shell bionic walking stabilizing shoe outsole is characterized in that the side surface of the heel part is of a concave curved surface structure.

The shell bionic walking stabilizing shoe outsole is characterized in that the front side face of the front sole portion is provided with two cross bar bulges, and the two cross bar bulges are arranged in an up-down parallel mode.

The shell bionic walking stabilizing shoe outsole is characterized in that tooth-like patterns are arranged on the two transverse strip bulges.

Compared with the prior art, the utility model has the following advantage: the utility model discloses a well waist position bottom of shoe heart portion forms shoe core groove from both sides shrink inwards, designs bionical shell structure in it again, and the form of simulation shell and the line of shell distribute, and bionical shell structure slightly protrudes the fine physical stress effect of having borrowed the shell form of form, for outsole shoe core provides required holding power, increases substantially the travelling comfort and the stability of sole.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of fig. 1.

Fig. 3 isbase:Sub>A sectional viewbase:Sub>A-base:Sub>A of fig. 1.

Fig. 4 is a sectional view taken along line B-B of fig. 1.

Fig. 5 is a schematic structural view of the front end of the outsole.

Description of reference numerals:

1-heel part; 2-the shoe core part; 3-anterior palm;

4-bionic shell structure; 5-strip-shaped lines; 6-TPU sheet;

7-transverse grooves; 8-longitudinal grooves; 9-half sole is convex;

10-heel groove; 11-heel bulge; 12-horizontal strip projection.

Detailed Description

As shown in fig. 1-5, a bionical steady step shoes outsole of shell, the outsole includes heel portion 1, shoe heart portion 2 and half sole portion 3, the middle part of the waist position bottom of shoe heart portion 2 is from both sides internal contraction formation shoe heart groove, the middle part in shoe heart groove has bionical shell structure 4, bionical shell structure 4's pitch arc reason is close to the outside of shoe heart portion 2, the both sides port department in shoe heart groove is the notch of bionical half shell shape, it has a plurality of bar lines 5 to distribute on the inner wall of notch, bar line 5 is towards bionical shell structure 4.

In this embodiment, the outer recess of the shoe core groove and the middle of the shoe core groove are a whole TPU sheet 6, and the plurality of strip-shaped lines 5 and the bionic shell structure 4 at the outer recess of the shoe core groove are all on the TPU sheet 6.

It should be noted that the outsole adopts the integrated forming foaming process which is popular in the present time, so that the outsole has better elasticity and shock resistance while ensuring light weight. The motion flexibility is better than the big end of EVA combination rubber material. The design of 6 regions of the middle-waist TPU sheet enables the outsole to have better outsole support performance and torsion resistance compared with the conventional full EVA outsole.

The TPU sheet 6 at the middle waist part simulates the shape of a shell and the grain distribution of the shell, and the micro-convex shape well borrows the physical stress effect of the shell shape to provide the required supporting force for the middle waist.

In this embodiment, the bottom surface of the front palm portion 3 has three transverse grooves 7, and the three transverse grooves 7 are uniformly distributed from front to back.

In this embodiment, a longitudinal groove 8 is formed in the bottom surface of the forefoot portion 3, the rear end of the longitudinal groove 8 is communicated with the middle of the shoe core groove, the front end of the longitudinal groove 8 extends to the transverse groove 7 at the foremost side, and the longitudinal groove 8 gradually deviates from the rear direction to the front direction toward the inner side of the outsole.

It should be noted that, the transverse grooves 7 and the longitudinal grooves 8 play a role of bending the groove, so as to better ensure the outsole deformation space required by the left and right transverse movement, and make the wearing more comfortable and the movement more flexible.

In this embodiment, a plurality of half sole protrusions 9 are fully distributed in the regions of the non-transverse grooves 7 and the non-longitudinal grooves 8 on the bottom surface of the half sole portion 3, and the surfaces of the half sole protrusions 9 have a corrugated texture.

The design of the plurality of half sole bulges 9 and the corrugated lines on the surfaces of the half sole bulges 9 ensures that the skid resistance and the ground gripping force of the whole outsole are effectively ensured.

In this embodiment, a heel groove 10 is formed in the middle of the heel portion 1, and the front end of the heel groove 10 is communicated with the middle of the shoe core groove.

The design of the heel groove 10 enables the heel part 1 to form a hoof-like structure, and stability required by outsole sports is improved.

In this embodiment, the area of the heel part 1 other than the heel groove 10 is filled with a plurality of heel protrusions 11, and the surface of the heel protrusions 11 has a corrugated texture.

In this embodiment, the lateral surface of the heel part 1 is a concave curved surface structure. Compared with a normal heel design with the same plane, the design of the concave design in the middle of the upper and lower bulges improves the flexibility of wearing movement.

In this embodiment, the front side surface of the forefoot portion 3 has two cross bar protrusions 12, and the two cross bar protrusions 12 are arranged in parallel up and down.

In this embodiment, the two horizontal bar protrusions 12 have a tooth-like pattern.

The design of two horizontal bar arch 12 both can bring certain crashproof shock attenuation effect for the outsole front end, and on the other hand can provide for the outsole front end and grab the land fertility to the climbing of adaptation outsole grabs the land effect.

The above, only be the utility model discloses a preferred embodiment, it is not right the utility model discloses do any restriction, all according to the utility model discloses the technical entity all still belongs to any simple modification, change and the equivalent structure change of doing above embodiment the utility model discloses technical scheme's within the scope of protection.

Claims (10)

1. The utility model provides a bionical steady step shoes outsole of shell, its characterized in that, the outsole includes heel portion, shoes heart portion and preceding palm portion, the middle part in shoes heart portion position bottom from both sides internal contraction form shoes heart groove, the middle part in shoes heart groove has bionical shell structure, the pitch arc edge of bionical shell structure is close to the outside of shoes heart portion, the both sides port department in shoes heart groove is the notch of bionical half shell shape, it has a plurality of bar lines to distribute on the inner wall of notch, the bionical shell structure of bar line orientation.

2. The shell bionic walking stabilizing shoe outsole as claimed in claim 1, wherein the outer recess of the shoe core groove and the middle part of the shoe core groove are a whole TPU sheet, and the plurality of strip-shaped lines and the bionic shell structures at the outer recess of the shoe core groove are all arranged on the TPU sheet.

3. The shell bionic walking stabilizing shoe outsole as claimed in claim 1, wherein the bottom surface of the front palm part is provided with three transverse grooves, and the three transverse grooves are uniformly distributed from front to back.

4. The big sole of the shell bionic walking-stabilizing shoe according to claim 3, wherein a longitudinal groove is formed in the bottom surface of the front sole portion, the rear end of the longitudinal groove is communicated with the middle of the shoe core groove, the front end of the longitudinal groove extends to the transverse groove on the foremost side, and the longitudinal groove gradually deviates from the rear direction to the front direction towards the inner side of the big sole.

5. The shell bionic walking-stabilizing shoe outsole as claimed in claim 4, wherein a plurality of half sole bulges are fully distributed in the non-transverse groove and non-longitudinal groove areas of the bottom surface of the half sole part, and the surfaces of the half sole bulges are provided with corrugated lines.

6. The shell bionic walking stabilizing shoe outsole as claimed in claim 1, wherein a heel groove is formed in the middle of the heel part, and the front end of the heel groove is communicated with the middle of the shoe center groove.

7. The shell bionic walking stabilizing shoe outsole as claimed in claim 6, wherein the area of the heel part other than the heel groove is fully distributed with a plurality of heel bulges, and the surfaces of the heel bulges are provided with corrugated lines.

8. The shell bionic walking stabilizing shoe outsole as claimed in claim 1, wherein the side surface of the heel part is of a concave curved surface structure.

9. The shell bionic walking-stabilizing shoe outsole as claimed in claim 1, wherein the front side surface of the forepalm part is provided with two cross-bar bulges, and the two cross-bar bulges are arranged in parallel from top to bottom.

10. The shell bionic walking-stabilizing shoe outsole as claimed in claim 9, wherein the two cross-bar bulges are provided with tooth-like patterns.

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