CN204259949U - A kind of wear-resistant vibration-damping sole - Google Patents

Abstract

The utility model specifically discloses a kind of wear-resistant vibration-damping sole, comprises sole lower surface, and sole lower surface is provided with wear-resistant block and middle slot portion, and wear-resistant block is made up of the first wear-resistant block, the second wear-resistant block, the 3rd wear-resistant block, the 4th wear-resistant block; First wear-resistant block correspondence is located at medial heel, and the second wear-resistant block correspondence is located at lateral heel, and the first wear-resistant block and the second wear-resistant block extend along sole lower surface fore-and-aft direction; 3rd wear-resistant block correspondence is located at inside half sole, and the 4th wear-resistant block correspondence is located at outside half sole, and the 3rd wear-resistant block and the 4th wear-resistant block extend along sole lower surface fore-and-aft direction; Middle slot portion comprises in the middle part of the anterior and middle slot of middle slot rear portion, middle slot, middle slot portion is interval with EVA projection, and the level height of projection bottom is higher than the level height of laterally corresponding wear-resistant block tread surface.Owing to being provided with wear-resistant block and occuping the middle slot portion that wear-resistant block asks, and the EVA projection level height in middle slot portion is higher than wear-resistant block, makes the utility model have good shock-absorbing function and wearability.

Description

A kind of wear-resistant vibration-damping sole

Technical field

The utility model relates to footwear technical field, particularly relates to a kind of wear-resistant vibration-damping sole.

Background technology

Due in motion process, the half sole inside edge of sole, half sole outer ledge, medial heel edge and lateral heel edge usually receive wearing and tearing in various degree, and cause the out-of-flatness of sole lower surface in the course of time, easy crooked turning, leaves potential safety hazard.Finding according to biomechanics Research simultaneously, reach more than 3 times of himself body weight when walking in the face of the reaction force of foot and sole, and this reaction force is stronger when running, and can reach 8 times of own body weight.Visible in motion process, the cushioning ability of sole is even more important.

Utility model content

The utility model object is to provide a kind of wear-resistant vibration-damping sole, makes sole have good wearability and shock-absorbing function simultaneously, extends the service life of sole.

The technical solution that the utility model adopts is:

A kind of wear-resistant vibration-damping sole, comprise the sole lower surface touched with ground, described sole lower surface is provided with wear-resistant block and middle slot portion, and described wear-resistant block is made up of the first wear-resistant block, the second wear-resistant block, the 3rd wear-resistant block, the 4th wear-resistant block;

Described first wear-resistant block is arranged on described sole lower surface and medial heel opposite position, described second wear-resistant block is arranged on described sole lower surface and lateral heel opposite position, described first wear-resistant block and described second wear-resistant block extend along described sole lower surface fore-and-aft direction respectively, one end at mesopodium rear end correspondence position, the other end in described sole lower surface rearmost end;

Described 3rd wear-resistant block to be arranged on inside described sole lower surface and half sole on opposite position, described 4th wear-resistant block to be arranged on outside described sole lower surface and half sole on opposite position, described 3rd wear-resistant block and described 4th wear-resistant block extend along described sole lower surface fore-and-aft direction respectively, and one end at mesopodium front end correspondence position, the other end at described sole lower surface foremost;

Described middle slot portion comprise be arranged on middle slot rear portion between described first wear-resistant block and described second wear-resistant block, be arranged on middle slot between described 3rd wear-resistant block and described 4th wear-resistant block anterior and be arranged on the middle slot of mesopodium opposite position in the middle part of, and described middle slot is anterior and described middle slot rear portion communicates respectively with in the middle part of described middle slot; Described middle slot portion is arranged at intervals with some EVA projections, described EVA projection near the level height of the projection bottom on ground higher than the level height of the tread surface of laterally corresponding described wear-resistant block and earth surface.

Preferably, described first wear-resistant block comprises the first tread surface with earth surface, described second wear-resistant block comprises the second tread surface with earth surface, described 3rd wear-resistant block comprises the 3rd tread surface with earth surface, described 4th wear-resistant block comprises the 4th tread surface with earth surface, and described first tread surface, described second tread surface, described 3rd tread surface and described 4th tread surface lay respectively in same level.

Preferably, the shape of cross section of described EVA projection is circular or square.

Preferably, described EVA projection near the projection bottom on ground in the arc surfaced be bent upwards.

Preferably, described middle slot portion is the arc surfaced be bent upwards at the vertical sectional shape perpendicular to described sole lower surface fore-and-aft direction.

Preferably, described first wear-resistant block, described second wear-resistant block, described 3rd wear-resistant block and described 4th wear-resistant block are respectively equipped with anti-skid structure.

Preferably, described anti-skid structure is anti-slip veins or non-slip process.

On the basis of technique scheme, the utility model can be further improved and be: described 3rd wear-resistant block is provided with the 3rd slot segmentation on the centre position of its fore-and-aft direction, described 4th wear-resistant block is provided with the 4th slot segmentation on the centre position of its fore-and-aft direction, and the left and right trend of described 3rd slot segmentation and described 4th slot segmentation is respectively perpendicular to the fore-and-aft direction of described sole lower surface.

The beneficial effects of the utility model: because the first wear-resistant block correspondence is arranged on medial heel, second wear-resistant block correspondence is arranged on lateral heel, 3rd wear-resistant block correspondence is arranged on inside half sole, 4th wear-resistant block correspondence is arranged on outside half sole, greatly promote the wear resistance of sole lower surface, extend the service life of sole, and the anti-skid structure that it is arranged respectively, can ensure can not slip in motion process, improve the non-skid property of sole; Because middle slot portion is arranged between wear-resistant block, be the groove be upwards recessed to form, and be provided with EVA projection thereon, greatly can promote the deformability of middle slot portion after motion is stressed, greatly absorb the powerful side effect power on ground, play the effect of damping.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation.

Fig. 2 is the sectional view at the place of A-A shown in Fig. 1.

Description of reference numerals:

11. first wear-resistant blocks; 12. second wear-resistant blocks; 13. the 3rd wear-resistant blocks; 14. the 4th wear-resistant blocks; 130. the 3rd slot segmentations; 140. the 4th slot segmentations; 100. anti-skid structure; 21. middle slots are anterior; In the middle part of 22. middle slots; 23. middle slot rear portions; 30.EVA projection.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As shown in Figure 1, 2, the present embodiment provides a kind of wear-resistant vibration-damping sole, comprise the sole lower surface touched with ground, described sole lower surface is provided with wear-resistant block and middle slot portion, and described wear-resistant block is made up of the first wear-resistant block 11, second wear-resistant block 12, the 3rd wear-resistant block 13, the 4th wear-resistant block 14.

Described first wear-resistant block 11 is arranged on described sole lower surface and medial heel opposite position, described second wear-resistant block 12 is arranged on described sole lower surface and lateral heel opposite position, described first wear-resistant block 11 and described second wear-resistant block 12 extend along described sole lower surface fore-and-aft direction respectively, one end at mesopodium rear end correspondence position, the other end in described sole lower surface rearmost end.

Described 3rd wear-resistant block 13 to be arranged on inside described sole lower surface and half sole on opposite position, described 4th wear-resistant block 14 to be arranged on outside described sole lower surface and half sole on opposite position, described 3rd wear-resistant block 13 and described 4th wear-resistant block 14 extend along described sole lower surface fore-and-aft direction respectively, and one end at mesopodium front end correspondence position, the other end at described sole lower surface foremost.

Described first wear-resistant block 11 comprises the first tread surface with earth surface, described second wear-resistant block 12 comprises the second tread surface with earth surface, described 3rd wear-resistant block 13 comprises the 3rd tread surface with earth surface, described 4th wear-resistant block 14 comprises the 4th tread surface with earth surface, and described first tread surface, described second tread surface, described 3rd tread surface and described 4th tread surface lay respectively in same level.For strengthening the non-skid property of described wear-resistant block, described first wear-resistant block 11, described second wear-resistant block 12, described 3rd wear-resistant block 13 and described 4th wear-resistant block 14 are respectively equipped with anti-skid structure 100, and described anti-skid structure can be anti-slip veins or non-slip process.

Described middle slot portion is that described sole lower surface upwards caves in and arranges the groove of formation, it comprise be arranged on middle slot rear portion 23 between described first wear-resistant block 11 and described second wear-resistant block 12, be arranged on the middle slot front portion 21 between described 3rd wear-resistant block 13 and described 4th wear-resistant block 14 and be arranged on the middle slot of mesopodium opposite position in the middle part of 22, and described middle slot anterior 21 and described middle slot rear portion 23 22 to communicate with in the middle part of described middle slot respectively.In the present embodiment, the arc surfaced that is preferably bent upwards at the vertical sectional shape perpendicular to described sole lower surface fore-and-aft direction of described middle slot portion.Due in motion process, the wear-resistant block of both sides, middle slot portion plays the effect supporting foot, and between middle slot portion and ground, leave longitudinal height space, deformability after it is stressed significantly strengthens, stress deformation by middle slot portion plays the effect absorbing attenuate ground impulsive force, and to be laid in after in before whole described sole lower surface everywhere due to the present embodiment middle slot portion, thus damping effect when realizing sole correspondence position and corresponding stage.

For promoting the cushioning ability that middle slot portion plays sole further, described middle slot portion is arranged at intervals with some EVA projections 30, the shape of cross section of described EVA projection 30 is circular or square, described EVA projection 30 near the projection bottom on ground in the arc surfaced be bent upwards, described EVA projection 30 near the level height of the projection bottom on ground higher than the level height of the tread surface of laterally corresponding described wear-resistant block and earth surface.Be out of shape downwards gradually when middle slot portion is stressed, because EVA projection 30 is soft, described EVA projection 30 is with earth surface and linear deformation occurs, and plays the effect of damping further.

On the basis of technique scheme, the utility model can be further improved and be: described 3rd wear-resistant block 13 is provided with the 3rd slot segmentation 130 on the centre position of its fore-and-aft direction, described 4th wear-resistant block 14 is provided with the 4th slot segmentation 140 on the centre position of its fore-and-aft direction, and the left and right trend of described 3rd slot segmentation 130 and described 4th slot segmentation 140 is respectively perpendicular to the fore-and-aft direction of described sole lower surface.So can improve sole to contact to earth the natural flexion of later stage footwork in motion, improve the warping strength ability at half sole place, also contribute to pedaling forward.

The utility model is not limited to above-mentioned preferred forms, and anyone should learn the structure change made under enlightenment of the present utility model, and every have identical or close technical scheme with the utility model, all falls within protection domain of the present utility model.

Claims (8)

1. a wear-resistant vibration-damping sole, comprise the sole lower surface touched with ground, it is characterized in that, described sole lower surface is provided with wear-resistant block and middle slot portion, and described wear-resistant block is made up of the first wear-resistant block, the second wear-resistant block, the 3rd wear-resistant block, the 4th wear-resistant block;

Described first wear-resistant block is arranged on described sole lower surface and medial heel opposite position, described second wear-resistant block is arranged on described sole lower surface and lateral heel opposite position, described first wear-resistant block and described second wear-resistant block extend along described sole lower surface fore-and-aft direction respectively, one end at mesopodium rear end correspondence position, the other end in described sole lower surface rearmost end;

Described 3rd wear-resistant block to be arranged on inside described sole lower surface and half sole on opposite position, described 4th wear-resistant block to be arranged on outside described sole lower surface and half sole on opposite position, described 3rd wear-resistant block and described 4th wear-resistant block extend along described sole lower surface fore-and-aft direction respectively, and one end at mesopodium front end correspondence position, the other end at described sole lower surface foremost;

Described middle slot portion comprise be arranged on middle slot rear portion between described first wear-resistant block and described second wear-resistant block, be arranged on middle slot between described 3rd wear-resistant block and described 4th wear-resistant block anterior and be arranged on the middle slot of mesopodium opposite position in the middle part of, and described middle slot is anterior and described middle slot rear portion communicates respectively with in the middle part of described middle slot;

Described middle slot portion is arranged at intervals with some EVA projections, described EVA projection near the level height of the projection bottom on ground higher than the level height of the tread surface of laterally corresponding described wear-resistant block and earth surface.

2. a kind of wear-resistant vibration-damping sole according to claim 1, it is characterized in that, described first wear-resistant block comprises the first tread surface with earth surface, described second wear-resistant block comprises the second tread surface with earth surface, described 3rd wear-resistant block comprises the 3rd tread surface with earth surface, described 4th wear-resistant block comprises the 4th tread surface with earth surface, and described first tread surface, described second tread surface, described 3rd tread surface and described 4th tread surface lay respectively in same level.

3. a kind of wear-resistant vibration-damping sole according to claim 1, is characterized in that, the shape of cross section of described EVA projection is circular or square.

4. a kind of wear-resistant vibration-damping sole according to claim 1, is characterized in that, described EVA projection near the projection bottom on ground in the arc surfaced be bent upwards.

5. a kind of wear-resistant vibration-damping sole according to claim 1, is characterized in that, described middle slot portion is the arc surfaced be bent upwards at the vertical sectional shape perpendicular to described sole lower surface fore-and-aft direction.

6. a kind of wear-resistant vibration-damping sole according to claim 1, is characterized in that, described first wear-resistant block, described second wear-resistant block, described 3rd wear-resistant block and described 4th wear-resistant block are respectively equipped with anti-skid structure.

7. a kind of wear-resistant vibration-damping sole according to claim 6, is characterized in that, described anti-skid structure is anti-slip veins or non-slip process.

8. a kind of wear-resistant vibration-damping sole according to any one of claim 1 to 7, it is characterized in that, described 3rd wear-resistant block is provided with the 3rd slot segmentation on the centre position of its fore-and-aft direction, described 4th wear-resistant block is provided with the 4th slot segmentation on the centre position of its fore-and-aft direction, and the left and right trend of described 3rd slot segmentation and described 4th slot segmentation is respectively perpendicular to the fore-and-aft direction of described sole lower surface.