CN205547580U - Insole and have shoes in this insole with shock attenuation bradyseism function - Google Patents

Abstract

The utility model provides an insole and have shoes in this insole with shock attenuation bradyseism function, being provided with alternate swell shape structure on the face of this insole of and foot's contact, the swell shape structure that lies in toe, sole and heel department is packaged with nanometer energy absorbing material NEAS, is packaged with compressed air in the swell shape structure of other position departments, the shoes that have this insole, the insole nestification is on the big end, the upper portion in insole sets up the vamp, the nanometer energy absorbing material NEAS that adopted in this shoes insole be known energy absorbing material what time arrive hundreds of times, the general effectively improve the shock attenuation bradyseism performance of whole shoes, the resilience ability of sole has fully been guaranteed in the alternate design of the structure of bulging simultaneously and NEAS material and compressed air's overall arrangement.

Description

A kind of middle end with damping shock-absorbing function and there are the footwear at the end in this

Technical field

This utility model relates to midsole technical field, is specifically related to a kind of middle end with damping shock-absorbing function And there are the footwear at the end in this.

Background technology

There are some researches show, the every walking of people 1 kilometer, a foot needs to bear the gravitational thrusts of 600～700 times, If vigorous exercise, impulsive force is the biggest.And when running, the impulsive force that foot contacts to earth is up to body weight 2～4 times.This impulsive force can produce Sasser in human body, causes partes corporis humani position in various degree Injury.This just requires that sole to have certain absorption and reduce the function of ground shock power, i.e. damping bradyseism Energy.If sole does not has good damping bradyseism system to alleviate this impulsive force, both feet will be made to feel exhausted. Therefore damping shock-absorbing function is as the basic barrier propterty of sole, it is necessary to improve.

Present sole is mainly made up of the big end, the middle end and inner bottom three part, and wherein the middle end is whole sole knot The emphasis of structure design, is to ensure that whole shoes possess comfort cushioning, stability, damping property and energy rebound Important component, the functional of footwear and comfortableness will be directly affected.

Summary of the invention

In order to solve the problem that above-mentioned prior art exists, the purpose of this utility model is to provide one to have The middle end of damping shock-absorbing function and there are the footwear at the end in this, the nanometer energy-absorbing material (NEAS) that this midsole uses Be known energy-absorbing material what time arrive hundreds times, the damping bradyseism performance of whole footwear will be effectively improved, rouse simultaneously Design that pack arrangement is alternate and NEAS material and compressed-air actuated layout have fully ensured that the resilience of sole Energy.

In order to achieve the above object, this utility model adopts the following technical scheme that

A kind of middle end with damping shock-absorbing function, the face that said midsole 2 contacts with foot is provided with alternate Bulge shape structure 4, be positioned at the bulge shape structure 4 at toe, sole and heel and be packaged with nanometer energy-absorbing material Material NEAS, is packaged with compressed air in the bulge shape structure 4 of other position.

Described nanometer energy-absorbing material NEAS is the gel state of ZSM-5 zeolite solution.

Described bulge shape structure 4 is prismatic, semielliptical shape or truncated cone.

The material of described bulge shape structure 4 is polyvinylchloride, thermoplastic polyurethane elastomer or silicon Glue.

A kind of footwear, including the middle end 2 with damping shock-absorbing function described above, said midsole 2 is nested in greatly , the top of said midsole 2 arranges vamp 1 at the end 3.

Said midsole 2 is removably embedded at big the end 3.

The material at the described big end 3 is natural rubber or asynthetic rubber.

The most relatively, this utility model possesses following advantage:

1) the nanometer energy-absorbing material NEAS that this utility model uses is the tens the most hundreds of of known materials energy-absorbing Times, there is the most excellent damping bradyseism performance.

2) this utility model determines the region filling NEAS according to sole each position function and loading characteristic, The feature having played NEAS damping bradyseism of limits.

3) this utility model endergonic structure interphase distribution, is filled with compressed air in part endergonic structure, fills Divide the rebound performance that ensure that sole.

4) middle bottom structure of the present utility model is removably embedded at big the end, effectively reduces use cost.

Accompanying drawing explanation

Fig. 1 is that in this utility model, NEAS and compressed air fill endergonic structure scattergram at the end.

Fig. 2 is this utility model structural representation.

Detailed description of the invention

With detailed description of the invention, this utility model is described in detail below in conjunction with the accompanying drawings.

As it is shown in figure 1, be this utility model a kind of middle end with damping shock-absorbing function, said midsole 2 He It is provided with alternate bulge shape structure 4 on the face of foot's contact, is positioned at the bulge shape at toe, sole and heel It is packaged with nanometer energy-absorbing material NEAS in structure 4, in the bulge shape structure 4 of other position, is packaged with compression Air.This layout mainly determines the region filling NEAS according to sole each position function and loading characteristic, because of This is being positioned at toe, sole and heel the encapsulation nanometer energy-absorbing of the bulge shape structure (such as figure black region) Material NEAS, and in remaining bulge shape architecture, it is filled with compressed air, the most both gave full play to The damping bradyseism performance of NEAS, also utilizes compressed-air actuated gas elasticity to ensure that the whole middle end and the resilience of sole Characteristic.

As preferred implementation of the present utility model, described nanometer energy-absorbing material NEAS is ZSM-5 zeolite The gel state of solution.

As preferred implementation of the present utility model, described bulge shape structure 4 is prismatic, semielliptical shape Or truncated cone.This shape ensure that total has certain deformation characteristic.

As preferred implementation of the present utility model, the material of described bulge shape structure 4 is polrvinyl chloride PVC, thermoplastic polyurethane elastomer or silica gel.This material has the feature of large deformation.

As in figure 2 it is shown, be this utility model a kind of footwear to be protected, delay including the described above damping that has The middle end 2 of shake function, said midsole 2 is nested at big the end 3, and the top of said midsole 2 arranges vamp 1.

As preferred implementation of the present utility model, said midsole 2 is removably embedded at big the end 3.

As preferred implementation of the present utility model, the material at the described big end 3 is vulcanie, natural rubber Glue or asynthetic rubber.Vulcanie is used to have the feature of certain tough and tensile anti-skid wearable.

Dress have in this footwear at the end in walking or on foot time, the nanometer energy-absorbing in bulge shape structure at the middle end Material NEAS will have an effect, and impact energy is converted to heat energy, absorb and reduce impulsive force to foot Injury, plays greatly damping bradyseism effect.It is packaged with compressed-air actuated bulge shape structure in turn ensure that simultaneously The middle end and the rebound performance of whole sole, have, when making people in walking or run, the comfortableness having very much, contribute to Fatigue alleviating.In this, the end, replaceable is embedded at big the end, significantly reduces use cost, can be very easily Change at any time with the unfailing performance at the end in ensureing.

Claims (7)

1. a middle end with damping shock-absorbing function, it is characterised in that: said midsole (2) and foot connect It is provided with alternate bulge shape structure (4) on the face touched, is positioned at the bulge shape knot at toe, sole and heel It is packaged with nanometer energy-absorbing material NEAS in structure (4), is packaged with in bulge shape structure (4) of other position Compressed air.

A kind of middle end with damping shock-absorbing function the most according to claim 1, it is characterised in that: institute State the gel state that nanometer energy-absorbing material NEAS is ZSM-5 zeolite solution.

A kind of middle end with damping shock-absorbing function the most according to claim 1, it is characterised in that: institute Stating bulge shape structure (4) is prismatic, semielliptical shape or truncated cone.

A kind of middle end with damping shock-absorbing function the most according to claim 1, it is characterised in that: institute The material stating bulge shape structure (4) is polyvinylchloride, thermoplastic polyurethane elastomer or silica gel.

5. footwear, it is characterised in that: include, described in any one of Claims 1-4, there is damping bradyseism The middle end (2) of function, said midsole (2) is nested at the big end (3), and the top of said midsole (2) sets Put vamp (1).

A kind of footwear the most according to claim 5, it is characterised in that: said midsole (2) is removably It is embedded at the big end (3).

A kind of footwear the most according to claim 5, it is characterised in that: the material of the described big end (3) is Natural rubber or asynthetic rubber.