阅读说明：本技术 超高弹性缓震结构及包含该缓震结构的鞋底、鞋子 (Ultrahigh-elasticity cushioning structure and shoe sole and shoe comprising same ) 是由 吴建海 于 2021-01-26 设计创作，主要内容包括：本发明涉及鞋类制品技术领域,一种超高弹性缓震结构,应用于鞋底上,包括形成于鞋底前掌和/或/至后掌区域的若干个缓震元件,所述缓震元件采用弹性材料制成,每个所述缓震元件的纵向横截面为类Ω状的对称结构,所述缓震元件顶部具有横向的连接部,所述连接部两端底部连接有塑形部,所述塑形部底部连接有折弯部,所述折弯部底部连接有支撑部,所述连接部顶部和支撑部底部与鞋底连接。本发明的目的为了提升鞋子的减震效果,在鞋底同一区域的减震效果能够较佳适配不同压力或冲击力,本发明还提供了相应包含该缓震结构的鞋底及鞋子。(The invention relates to the technical field of footwear products, in particular to an ultrahigh-elasticity cushioning structure which is applied to a sole and comprises a plurality of cushioning elements formed in the half sole area and/or the half sole area of the sole, wherein the cushioning elements are made of elastic materials, the longitudinal cross section of each cushioning element is of an omega-like symmetrical structure, the top of each cushioning element is provided with a transverse connecting part, the bottoms of the two ends of each connecting part are connected with shaping parts, the bottoms of the shaping parts are connected with bending parts, the bottoms of the bending parts are connected with supporting parts, and the tops of the connecting parts and the bottoms of the supporting parts are connected with the sole. The invention aims to improve the shock absorption effect of the shoe, the shock absorption effect in the same area of the sole can be better adapted to different pressures or impact forces, and the invention also provides the sole and the shoe correspondingly comprising the shock absorption structure.)

1. The utility model provides a super high elasticity bradyseism structure, is applied to on the sole, its characterized in that, including forming in sole half sole and/or to the regional a plurality of bradyseism component of back palm, the bradyseism component adopts elastic material to make, every the longitudinal cross section of bradyseism component is the symmetrical structure of class omega form, the bradyseism component top has horizontal connecting portion, connecting portion both ends bottom is connected with moulding portion, moulding portion bottom is connected with the portion of bending, the portion bottom of bending is connected with the supporting part, connecting portion top and supporting part bottom are connected with the sole.

2. The ultra-high elasticity cushioning structure of claim 1, wherein the thickness of the connecting portion at both ends is greater than the thickness of the middle portion.

3. An ultra-high resilience cushioning structure according to claim 1, wherein the cushioning element has a profile having a plurality of transverse corrugations and/or longitudinal corrugations.

4. The ultra-high elasticity cushioning structure of claim 1, wherein the outer side of the supporting portion is provided with extending portions along both ends of the cushioning element in the long side direction.

5. The ultra-high elasticity cushioning structure of claim 1, wherein the elastic strength of the connecting portion and the bending portion is smaller than the elastic strength of the shaping portion and the supporting portion.

6. The ultra-high elasticity cushioning structure of claim 1, wherein the cushioning element is made of one or more of EVA, PU, TPU, TPE, PVC, rubber and nylon.

7. A shoe sole, characterized in that the shoe sole is provided with an ultra-high elastic cushioning structure as claimed in any one of claims 1 to 6.

8. A sole as claimed in claim 7, wherein a plurality of cushioning chambers are provided in the forefoot and/or to the rearfoot region of the sole, said cushioning elements being provided within said cushioning chambers.

9. A sole as claimed in claim 8, wherein the sole base is provided with anti-slip wear pads.

10. Shoe, characterized in that it comprises an upper and a sole according to any one of claims 7 to 9.

Technical Field

The invention relates to the technical field of footwear products, in particular to an ultrahigh-elasticity cushioning structure, and a sole and a shoe comprising the cushioning structure.

Background

Along with the development of social economy, the material level of people is continuously improved, more and more people pay attention to health, and more people participate in sports and fitness in daily life. In the running process, due to the action of inertia, at the moment that the bottom of the sports shoe touches the ground, the sole can be subjected to downward force applied to the sole by the gravity of the human body and impact force (generally 3 to 5 times of the weight of the human body) applied to the sole by the sole, and the impact force can easily cause certain damage to human body structures such as knee joints and/or ankle joints of the sports person. Therefore, the shoes are foot articles for protecting legs and feet from being injured, and the shock absorption and cushioning functions of the shoes are very important and necessary.

Many shoes that possess shock-absorbing function on the existing market all design and manufacture on the material or the structure of sole, in the aspect of sole shock-absorbing structure, exist like air cushion structure, shock attenuation post structure etc. but these shock-absorbing structure ubiquitous have following limitation: the current bradyseism structure is simple relatively, and single air cushion pound number or the elastic strength of elasticity post are fixed, consequently, it is fixed to set up the elastic effect that each sole region department of current bradyseism structure possessed, and this can lead to when same sole region receives different pressure or impact force, and the whole matching that the shock attenuation effect can not the preferred. For example, the existing sole has relatively large air cushion pounds or elastic strength of the elastic column arranged in the heel area, and when the heel area is subjected to small pressure or impact force, the obtained shock absorption and cushioning effect is poor. Therefore, the shock absorption and cushioning functions of the existing shoes need to be improved.

Disclosure of Invention

Based on the structure, in order to improve the damping effect of the shoe, the damping effect in the same area of the sole can be better adapted to different pressures or impact forces, the invention provides a super-high elasticity cushioning structure, and the invention also provides the sole and the shoe correspondingly comprising the cushioning structure.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a super high elasticity bradyseism structure, is applied to on the sole, including forming in sole half sole and/or to the regional a plurality of bradyseism component of back palm, the bradyseism component adopts elastic material to make, every the longitudinal cross section of bradyseism component is the symmetrical structure of class omega form, the bradyseism component top has horizontal connecting portion, connecting portion both ends bottom is connected with moulding portion, moulding portion bottom is connected with the portion of bending, the portion bottom of bending is connected with the supporting part, connecting portion top and supporting part bottom are connected with the sole.

Preferably, the thickness of both ends of the connecting part is greater than that of the middle part.

Preferably, the profile of the cushioning element has a plurality of transverse corrugations and/or longitudinal corrugations.

Preferably, the outer side of the supporting part is provided with extending parts along the two ends of the long side direction of the cushioning element.

Preferably, the elastic strength of the connecting part and the bending part is less than that of the shaping part and the supporting part.

Preferably, the cushioning element is made of one or more of EVA, PU, TPU, TPE, PVC, rubber and nylon.

Preferably, the bradyseism component outside cladding has outer peridium reason, and the thin slice cladding structure is made to the outer peridium adoption elasticity material, and the ageing resistance at outer peridium reason is stronger than the ageing resistance of bradyseism component.

Another object of the present invention is to provide a shoe sole having the above ultra-high elastic cushioning structure.

Preferably, a plurality of shock absorption cavities are arranged in the area of the half sole and/or the half sole, and the shock absorption elements are arranged in the shock absorption cavities.

Preferably, the bottom of the sole is provided with anti-skid wear-resistant pieces.

It is a further object of the present invention to provide a shoe comprising an upper and a sole as described above.

Compared with the prior art, the invention at least comprises the following advantages:

the invention relates to a super-high elasticity cushioning structure, a sole comprising the cushioning structure and a shoe, wherein each cushioning structure has a multi-stage elastic effect by arranging a cushioning element, and particularly, when the cushioning element is subjected to pressures or impact forces with different sizes, the cushioning element deforms in a matched manner according to the structural characteristics of the cushioning element, so that the cushioning effect is realized by combining the elasticity of the cushioning element, the cushioning effect in the same area of the sole can be better adapted to different pressures or impact forces, and the problem that the existing cushioning structure possibly loses the cushioning effect when the same area is subjected to different pressures or impact forces is solved; the cushioning element is composed of a plurality of parts with different structural functions, and each part respectively bears the corresponding functions of deformation, shock absorption, cushioning or connection and support, so that the functional partition is refined, the redundant and cumbersome structure is avoided, the structural utilization rate is improved in a limited space, the product quality is reduced, and the better wearing comfort is further provided; in addition, the contact area between the top of the cushioning element and the sole is large, and the symmetrical bending parts bent inwards are combined, so that the upper half part of the cushioning element can swing and deform correspondingly even if the cushioning element is subjected to oblique longitudinal acting force, and then can swing reversely to recover, so that reverse acting force is provided for the original acting force direction, and a comfortable rebound effect is achieved when the cushioning element is worn.