CN203467787U - Damping shoe sole and shoe - Google Patents

Abstract

The utility model provides a pair of damping shoe soles. Each damping shoe sole includes an upper sole and a lower sole, wherein the lower sole includes an upper surface in contact with the upper sole, and a lower surface in contact with the ground; convex damping units with the damping function are arranged between the upper sole and the lower sole as well as on the lower surface of the lower sole. The utility model further provides a pair of shoes with the damping shoe soles. According to the utility model, the problems of high shoemaking process cost, complexity of the process, as well as unavailability for automatic damping performance adjustments according to the stress on the foot of the conventional damping shoe sole are solved; the damping performance can be automatically adjusted according to different foot parts, different exercise types and different stress directions, and the stress can be buffered regardless of the angle between the stressed foot and the ground, so that the damping effect is achieved; the shoemaking cost is low, and the process is simple.

Description

A kind of shock-absorbing sole and footwear

Technical field

The footwear that the utility model relates to a kind of shock-absorbing sole and comprises this shock-absorbing sole.

Background technology

Along with the raising of people's living standard, people are more and more higher to the requirement of various daily neces saries.Footwear are important component parts of people's clothing, food, lodging and transportion--basic necessities of life, and the function of sole directly affects the comfort level in people's motion process.In order to absorb the impulsive force of motion to foot, improve comfort level the sense that lessens fatigue, the damping shoe of more and more kinds just arises at the historic moment, but the structure of damping shoe is different, and its damping effect is different.

Damping shoe is many realizes damping effect by shock-damping structure being set at sole, hereinafter referred to as the sole with damping effect, is shock-absorbing sole.Shock-absorbing sole comprises successively from top to bottom upper base, the middle end and goes to the bottom, or comprises upper base and go to the bottom.

Existing a kind of shock-absorbing sole employing has good damping performance material and makes the middle end, and in utilization, the damping performance at the end is alleviated the infringement of ground shock power to foot.This kind of shock-absorbing sole can play damping effect, but also exists problem: the vibration-absorptive material that in only relying on, the end adopts is not sufficient to the damping effect that reaches desirable.For the damping effect of strengthening sole is to improve comfort level, base thickness degree in certainly will will increasing, causes shoe-making process cost to increase, and also can make sole heavier simultaneously, is unfavorable for motion, and can not regulates voluntarily damping performance according to foot's stressing conditions.

Another kind of shock-absorbing sole is by the middle end or in going to the bottom, elastic bag being set, and utilizes the elasticity of elastic bag to improve the damping performance of sole.But the technology that this kind arranges elastic bag at sole can increase shoe-making process cost undoubtedly, and can increase the complexity of shoe-making process.

Visible, prior art not yet can provide production technology simple, with low cost, is easy to processing, easy to use, and can regulate voluntarily according to foot's stressing conditions sole and the footwear of damping performance.

Summary of the invention

The footwear that technical problem to be solved in the utility model is to provide a kind of shock-absorbing sole and comprises this shock-absorbing sole, can regulate voluntarily damping performance according to foot's stressing conditions, and production technology are simple, are easy to processing.

In order to address the above problem, the utility model provides a kind of shock-absorbing sole, comprise upper base and go to the bottom, described going to the bottom comprises the upper surface contacting with upper base and the lower surface contacting with ground, described upper base and go to the bottom between and described in the lower surface of going to the bottom be all provided with the vibration absorption unit with cushioning effect of protrusion.

Preferably, described vibration absorption unit comprises two above the first shock structures and two above the second shock structures, and the first shock structure is identical with the quantity of the second shock structure; Described the first shock structure is fixedly installed on described upper base lower surface and goes to the bottom between upper surface, the lower surface of going to the bottom described in described the second shock structure is fixedly installed on, the first shock structure and the second shock structure the upper and lower surface of going to the bottom be oppositely arranged and central shaft on same straight line.

Preferably, described the first shock structure is scattered in the multi-turn closed figure similar to upper base outer contour shape on described upper base lower surface, first shock structure that cannot form closed figure is uniformly distributed in the closed figure of innermost circle, wherein, the lateral wall shortest spacing scope of the first adjacent shock structure is 5-12mm.

Preferably, described the first shock structure is spacedly distributed along length and the width of upper base lower surface respectively, and wherein, in the longitudinal direction, the lateral wall shortest spacing scope of adjacent two the first shock structures is 7-12mm; On width, the lateral wall shortest spacing scope of adjacent two the first shock structures is 5-12mm.

Preferably, the thickness range of going to the bottom described in is 3-5mm; The first shock structure and the second shock structure are cylindrical shape, and cylindrical altitude range is 7-15mm, and diameter range is 8-35mm.

Preferably, the first shock structure and the second shock structure inner hollow, sidewall thickness scope is 2-3mm.

Preferably, described upper base all adopts high elastic rubber with going to the bottom; The first shock structure adopts MD or high elastic rubber, and the second shock structure adopts high elastic rubber.

Preferably, upper base, the first shock structure, go to the bottom and the second shock structure between all by glue, bond successively fixing, or one-body molded.

Preferably, described upper base two ends on its length direction are low, middle part upwards bulges into arch, described in the upper and lower surface of going to the bottom be plane, described in the surface area of going to the bottom be not less than the surface area of upper base.

The utility model also provides a kind of footwear, comprises upper of a shoe and above-mentioned shock-absorbing sole.

Compared with prior art, a technical scheme in technique scheme has the following advantages or beneficial effect: a kind of shock-absorbing sole of the utility model, can be according to the different parts of pin, different type of sports and the different force directions that is subject to regulate damping performance voluntarily, can compensator or trimmer pressure when any angle of foot and ground is stressed, reach the effect of damping, to meet the demand of various different motion, and sole design is reasonable, be easy to processing, easy to use, economize on resources, durable in use, cost of manufacture is low.

Accompanying drawing explanation

Fig. 1 is the front view of the upper base in the utility model shock-absorbing sole embodiment 1;

Fig. 2 is the front view of going to the bottom in the utility model shock-absorbing sole embodiment 1;

Fig. 3 is the front view of the utility model shock-absorbing sole embodiment 1;

Fig. 4 is the upward view of the utility model shock-absorbing sole embodiment 1;

Fig. 5 is the top view of the utility model shock-absorbing sole embodiment 1;

Fig. 6 is the stereogram of the upper base in the utility model shock-absorbing sole embodiment 1;

Fig. 7 is the stereogram of going to the bottom in the utility model shock-absorbing sole embodiment 1;

Fig. 8 is the stereogram of the utility model shock-absorbing sole embodiment 1;

Fig. 9 is the front view of the upper base in the utility model shock-absorbing sole embodiment 2;

Figure 10 is the front view of going to the bottom in the utility model shock-absorbing sole embodiment 2;

Figure 11 is the upward view of the utility model shock-absorbing sole embodiment 2.

In figure: 1-upper base; 2-goes to the bottom; 3-the first shock structure; 4-the second shock structure.

The specific embodiment

For above-mentioned purpose of the present utility model, feature and advantage can be become apparent more, below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

shock-absorbing sole embodiment 1

With reference to Fig. 1 ~ 8, show a kind of shock-absorbing sole that the utility model provides, comprise upper base 1 and go to the bottom 2, going to the bottom 2 comprises the upper surface contacting with upper base 1 and the lower surface contacting with ground, upper base 1 and go to the bottom between 2 and 2 lower surfaces of going to the bottom are all provided with the vibration absorption unit with cushioning effect of protrusion.

In the present embodiment, the surface area of going to the bottom is not less than the surface area of upper base.The thickness range of going to the bottom is 3-5mm.Upper base all adopts high elastic rubber to make with going to the bottom.Upper base comprises forward foot in a step metacarpus, arch portion and rear heel, wherein, forefoot position micro-the sticking up that make progress, the upper and lower surface of going to the bottom is plane.

Vibration absorption unit comprises two above the first shock structures 3 and two above the second shock structures 4, and the first shock structure is identical with the quantity of the second shock structure.The first shock structure 3 is fixedly installed on upper base 1 lower surface and goes to the bottom between 2 upper surfaces, and the second shock structure 4 is fixedly installed on 2 lower surfaces of going to the bottom, the first shock structure 3 and the second shock structure 42 upper and lower surfaces of going to the bottom be oppositely arranged and central shaft on same straight line.In the present embodiment, the first shock structure 3 is scattered in the multi-turn closed figure similar to upper base outer contour shape on upper base 1 lower surface, first shock structure that cannot form closed figure is uniformly distributed in the closed figure of innermost circle, wherein, the lateral wall shortest spacing scope of the first adjacent shock structure is 5-12mm.Fig. 4 shows the first shock structure 3 in a kind of situation of arranging of upper base 1 lower surface, as can be seen from Figure 4, the number of the first shock structure arranging on upper base lower surface is 58,54 the first shock structures are wherein scattered in the two circles closed figure similar to upper base outer contour shape, in remaining 4 closed figures that are uniformly distributed in innermost circle.Certainly above are only wherein a kind of arrangement mode, and in actual shoe-making process, the number of the first shock structure and arrangement mode can change in response to the size and dimension of shoes, and be not limited to above-mentioned number and arrangement mode.

In the present embodiment, the first shock structure and the second shock structure are cylindrical shape, to simplify shoe-making process and to reduce shoemaking cost.Wherein, cylindrical altitude range is 7-15mm, and diameter range is 8-35mm.Certainly, in actual shoe-making process, the diameter dimension of cylindrical height and upper and lower surface can change in response to the size of sole.

In the present embodiment, the first shock structure adopts MD or high elastic rubber to make, and the second shock structure adopts high elastic rubber to make.MD is a kind of common footwear material, is that feature is light weight with the ethylene-vinyl acetate copolymer foamed compounding substances of making that adds hot compression, and elasticity and anti-seismic performance are good.Certainly in actual shoe-making process, the material of the first shock structure and the second shock structure is not limited in this, and other material with good damping effect also can adopt.

In actual shoe-making process, preferred, upper base and the first shock structure, the first shock structure and go to the bottom and go to the bottom and the second shock structure between all by glue, bond successively fixing.In order to simplify shoe-making process and to reduce shoemaking cost, upper base, the first shock structure, go to the bottom and the second shock structure can be one-body molded.

The shock-absorbing sole that the present embodiment provides is evenly distributed with respectively the first shock structure and the second shock structure due to upper base with between going to the bottom and on the lower surface of going to the bottom, can regulate voluntarily damping performance according to the different parts of pin, different type of sports and the different force directions that is subject to.Specifically, when people is in when motion, no matter be that forefoot first lands, rear heel first lands, or forefoot and rear heel land simultaneously, and the first shock structure and the second shock structure all can be alleviated the impact of moving to each position of pin, reach damping effect.In addition, the utility model shock-absorbing sole is reasonable in design, is easy to processing, easy to use, economizes on resources, and durable in use, shoemaking cost is low.

shock-absorbing sole embodiment 2

With reference to Fig. 9 ~ 11, the difference of the present embodiment and embodiment 1 is, in the present embodiment, the first shock structure and the second shock structure that are cylindrical shape are inner hollow structure, below take the first shock structure and the concrete structure of inner hollow is described as example:

The upper surface of the first shock structure of cylindrical shape is fixed on the lower surface of upper base, the lower surface opening of the first shock structure, and the upper surface of the first shock structure and sidewall surround an end opening, the cylinder of inner hollow.The proportion that the thickness of the upper surface of the first shock structure accounts for height is 1/10-1/2; Or

The equal opening of upper and lower surface of the first shock structure of cylindrical shape, becomes the tubular form of up/down perforation.This kind of sole is light, convenient motion, and greatly reduce shoemaking cost; Or

The upper and lower surface of the first shock structure of cylindrical shape is all sealed and inner hollow, and the volume size of inner hollow changes in response to actual process needs.

Accordingly, the inner hollow structure of the second shock structure and similar with the go to the bottom mode and above-mentioned the first shock structure that are connected, repeats no more.

In the present embodiment, the sidewall thickness scope of the first shock structure and the second shock structure is 2-3mm.Other structures are identical with embodiment 1, do not repeat them here.

shock-absorbing sole embodiment 3

The difference of the present embodiment and embodiment 1 is, in the present embodiment, the first shock structure is spacedly distributed along length and the width of upper base 1 lower surface respectively, wherein, in the longitudinal direction, the lateral wall shortest spacing scope of adjacent two the first shock structures is 7-12mm; On width, the lateral wall shortest spacing scope of adjacent two the first shock structures is 5-12mm.Accordingly, the second shock structure also adopts identical therewith arrangement mode on the lower surface of going to the bottom, the first shock structure and the second shock structure are oppositely arranged in the upper and lower surface both sides of going to the bottom and central shaft on same straight line.Other structures are identical with embodiment 1, do not repeat them here.

shock-absorbing sole embodiment 4

The difference of the present embodiment and embodiment 1 is, in the present embodiment, upper base two ends on its length direction are low, middle part upwards bulges into arch, and the upper and lower surface of going to the bottom is all plane.Other structures are identical with embodiment 1, do not repeat them here.

The invention also discloses a kind of footwear, comprise upper of a shoe and any above-mentioned shock-absorbing sole.

Each embodiment in this description all adopts the mode of going forward one by one to describe, and each embodiment stresses is the difference with other embodiment, between each embodiment identical similar part mutually referring to.

Above to a kind of shock-absorbing sole provided by the utility model and the footwear that comprise this shock-absorbing sole, be described in detail, applied specific case herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment is just for helping to understand method of the present utility model and core concept thereof; , for one of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model meanwhile.

Claims (9)

1. a shock-absorbing sole, comprise upper base and go to the bottom, described going to the bottom comprises the upper surface contacting with described upper base and the lower surface contacting with ground, it is characterized in that, described upper base and described in go to the bottom between and described in the lower surface of going to the bottom be all provided with the vibration absorption unit with cushioning effect of protrusion.

2. shock-absorbing sole according to claim 1, is characterized in that, described vibration absorption unit comprises two above the first shock structures and two above the second shock structures, and described the first shock structure is identical with the quantity of described the second shock structure; Described the first shock structure be fixedly installed on described upper base lower surface and described in go to the bottom between upper surface, the lower surface of going to the bottom described in described the second shock structure is fixedly installed on, described the first shock structure and described the second shock structure the described upper and lower surface of going to the bottom be oppositely arranged and central shaft on same straight line.

3. shock-absorbing sole according to claim 2, it is characterized in that, described the first shock structure is scattered in the multi-turn closed figure similar to described upper base outer contour shape on described upper base lower surface, described first shock structure that cannot form closed figure is uniformly distributed in the closed figure of innermost circle, wherein, the lateral wall shortest spacing scope of adjacent described the first shock structure is 5-12mm.

4. shock-absorbing sole according to claim 2, it is characterized in that, described the first shock structure is spacedly distributed along length and the width of described upper base lower surface respectively, wherein, in the longitudinal direction, the lateral wall shortest spacing scope of adjacent two described the first shock structures is 7-12mm; On width, the lateral wall shortest spacing scope of adjacent two described the first shock structures is 5-12mm.

5. shock-absorbing sole according to claim 2, is characterized in that, described in the thickness range of going to the bottom be 3-5mm; Described the first shock structure and the second shock structure are cylindrical shape, and cylindrical altitude range is 7-15mm, and diameter range is 8-35mm.

6. shock-absorbing sole according to claim 5, is characterized in that, described the first shock structure and described the second shock structure inner hollow, and sidewall thickness scope is 2-3mm.

7. shock-absorbing sole according to claim 2, is characterized in that, described upper base, described the first shock structure, described in go to the bottom and described the second shock structure between all by glue, bond successively fixing, or one-body molded.

8. shock-absorbing sole according to claim 2, is characterized in that, described upper base two ends on its length direction are low, middle part upwards bulges into arch, described in the upper and lower surface of going to the bottom be plane, described in the surface area of going to the bottom be not less than the surface area of described upper base.

9. footwear, comprise the arbitrary described shock-absorbing sole of upper of a shoe and claim 1 ~ 8.

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