CN104738885A - Spine-supporting shock absorption shoe sole and shoe with same - Google Patents

Abstract

The invention relates to a shoe sole, and provides a spine-supporting shock absorption shoe sole and a shoe with the same. The weight of the shoe sole can be effectively reduced and is low, and the shoe sole has excellent shock absorption performance and supporting performance. The spine-supporting shock absorption shoe sole comprises an outsole, a mid-sole and an inner sole, wherein the mid-sole is arranged on the outsole, and the inner sole is arranged on the mid-sole. The mid-sole is composed of a wave mid-sole piece in a spine-like shape and multiple supporting pieces penetrating through the wave mid-sole piece, all the supporting pieces are sequentially arrayed and distributed in the length extending direction of the mid-sole on the wave mid-sole piece, the supporting pieces at the wave crest positions of the wave mid-sole piece form an upper supporting structure, and the supporting pieces at the wave trough positions of the wave mid-sole piece form a lower supporting structure. The ends of upper supporting parts of the supporting pieces in the upper supporting structure are attached to the inner sole, the ends of lower supporting parts are separated from the outsole, the ends of upper supporting parts of the supporting pieces in the lower supporting structure are separated from the inner sole, and the ends of lower supporting parts are attached to the outsole.

Description

Vertebral support shock-absorbing sole and be provided with the footwear of this sole

Technical field

The present invention relates to a kind of sole, particularly a kind of vertebral support shock-absorbing sole and be provided with the footwear of this sole.

Background technology

Shoes are necessitys indispensable in daily life, in response to different effects and external form, have a feast for the eyes kind of all kinds on the market, but no matter how the outward appearance of shoes changes, the protection with providing foot enough comfortable and easy to wear is only most important.Whether for modern people's work requirements or recreation, often need to walk for a long time or stand, and the total weight of foot supports human body, long-time use foot is easily felt to ache, even produce Plantar Fasciitis, therefore the shoes that a pair of makes user comfortable and easy to wear are best aids, the footwear sole construction of general shoes is between the large end and the middle end, arrange one or more layers elastic layer formed by elastic material, this structure can when user wears shoes, the protective effect of user's sole bumper and absorbing shock is provided, allow user in time walking, the direct impact between foot plate surface and ground can be lowered, but, the structural design of multilayer elastic layer, sole weight can be caused large, comfortableness when sole is worn can be reduced, increase motion burden, especially the use in motion process is unfavorable for.At present, in order to aforesaid technical problem can be solved, prior art by offering the engraved structures such as hole slot to alleviate the weight of elastic layer on elastic layer, and the elastic layer elastic deformation power under hole slot engraved structure also can increase, and can take into account the advantage of elasticity and lightweight, but, the setting of a large amount of hole slot engraved structure greatly reduces the structural strength of elastic layer, structural stability is low, and the enabling capabilities of elastic layer weakens, and greatly reduces the practicality of elastic layer.

Summary of the invention

Therefore, for above-mentioned problem, the present invention proposes one and effectively can alleviate sole weight and reach lightweight feature, simultaneously with the damping performance of excellence and support performance vertebral support shock-absorbing sole and be provided with the footwear of this sole.

For realizing above-mentioned technical problem, the solution that the present invention takes is: vertebral support shock-absorbing sole, comprise the large end, the interior end be located at the middle end at the large end and be located at at middle the end, the described middle end, is made up of the wave mediella in class vertebra shape and multiple support chip be arranged on wave mediella, each described support chip on described wave mediella along in the length bearing of trend at the end be arranged in order distribution, the two ends of described support chip are in the laterally projecting class in the form of sheets spinal crest of Rauber structure of both sides up and down of described wave mediella, laterally projecting on the upside of wave mediella of support chip be on support portion, laterally projecting on the downside of wave mediella of support chip is lower support portion, the support chip be positioned on the crest location of described wave mediella forms upper support structure, the support chip be positioned in the wave trough position of described wave mediella forms lower support structure, the end of the upper support portion of support chip and applied thereto in described upper support structure, end and the large end in lower support portion, are separated, in described lower support structure, the end of the upper support portion of support chip and the interior end, are separated, and fit in end and the large end in lower support portion.

Further: described upper support structure is arranged in the toe place at the end, palm place and heel place, and described lower support structure is arranged in half sole place and the arch of foot place at the end.

Further: the described large end is the sheet rubber large end, the bottom at the described large end is provided with imitative vertebra striped.

Further: at the described large end and the interior end, be also provided with EVA supporting layer, described EVA supporting layer is coated on the periphery at the described middle end.

By adopting preceding solution, the invention has the beneficial effects as follows: the vertebral support shock-absorbing sole of design as mentioned above compared with prior art, has following advantage:

1, the entirety of the middle end that described wave mediella and support chip are formed is rendered as the hollow out wave structure of vertebra shape, namely in, the end, is formed as ridge structure supporting layer, decompose abstract process by human body ridge cone is often saved vertebrae, moulding again in conjunction with footwear forms the sole design that similar spinal structure is support, there is spinal structure characteristic, can mutually limit between adjacent support chip, between adjacent supports sheet, range of movement is little, when using as upper lower support structure, the range of movement of supporting construction is restricted, deformation power is restricted, namely the intensity of supporting construction is large, support performance is excellent, and when using as whole middle bottom structure, although mutual restrained motion scope is little between adjacent supports sheet, but, motion between most support chip is accumulated at together, just can carry out the motion compared with first mate's degree, motion mode comprise bend and stretch, lateroflexion, rotation and ring turn, curvature can be changed along with stressed change, deformation power is good, and effectively the impulsive force between sole and ground can be absorbed and be used for deformation, damping performance is excellent, therefore, spinal structure is effectively applied to footwear sole construction by described vertebral support shock-absorbing sole, the toughness at the middle end and elasticity-intensified is made by supporting construction staggered up and down distribution, with damping performance and the support performance of excellence, hollow space simultaneously between adjacent supports sheet also reduces the overall weight of sole, and sole has lightweight feature.

2, described bottom is provided with imitative vertebra striped, combined with the end in formation ridge structure supporting layer, is easy to the integrally bending of sole, improves the elastic deformation power of sole entirety, can be adapted to various state of ground, not easily sprain, improve walking comfort.

3, EVA supporting layer is also provided with at the described large end and the interior end, described EVA supporting layer is coated on the periphery at the described middle end, first described EVA supporting layer provides auxiliary support structure for the middle end, the power of partial action in the middle end is divided and is dissipated by EVA supporting layer, the permanent deformation phenomenon occurred under avoiding the end to be in the effect of pin height pressure for a long time, avoid the existing picture of the stressed fatigue in the middle end, and under the paving of EVA supporting layer helps supporting role, support toughness at the large end and the interior end is improved, and further improves practicality; Secondly; the middle end, is coated on wherein by described EVA supporting layer; for the middle end provides protective layer; make the middle end from the erosion wear in external environment; the service life at the end in prolongation; and the foreign matters such as extraneous rubble can be avoided to snap between the adjacent supports sheet at the middle end, the phenomenon that the deformability of the middle end avoiding foreign body intrusion to cause weakens, in guarantee, the moment end is in effective duty.

Accompanying drawing explanation

Fig. 1 is the structural representation of the embodiment of the present invention.

Fig. 2 is the structural representation on large shading road in the embodiment of the present invention.

Fig. 3 is the structural representation at the middle end of the embodiment of the present invention.

Detailed description of the invention

Now the present invention is further described with specific embodiment by reference to the accompanying drawings.

Referring to figs. 1 to Fig. 3, what the embodiment of the present invention disclosed is, vertebral support shock-absorbing sole, the interior end 3 comprising the large end 1, be located at the middle end 2 at the large end 1 and be located at at middle the end 2, the described middle end 2, is made up of the wave mediella 21 in class vertebra shape and multiple support chip 22 be arranged on wave mediella 21, each described support chip 22 on described wave mediella 21 along in the length bearing of trend at the end 2 be arranged in order distribution, described wave mediella 21 is elastic bendable material, and described support chip 22 is made for TPU material; The two ends of described support chip 22 are in the laterally projecting class in the form of sheets spinal crest of Rauber structure of both sides up and down of described wave mediella 21, laterally projecting on the upside of wave mediella 21 of support chip 22 be on support portion, laterally projecting on the downside of wave mediella 21 of support chip 22 is lower support portion; The support chip 22 be positioned on the crest location of described wave mediella 21 forms upper support structure, the support chip 22 be positioned in the wave trough position of described wave mediella 21 forms lower support structure, in described upper support structure, fit in the end of the upper support portion of support chip 22 and the interior end 3, end and the large end 1 in lower support portion, are separated, and the length of described upper support portion is longer, the length in lower support portion is shorter; In described lower support structure, the end of the upper support portion of support chip 22 and the interior end 3, are separated, and fit in end and the large end 1 in lower support portion, and the length of described upper support portion is shorter, and the length in lower support portion is longer; The described middle end 2, forms ridge structure supporting layer, makes the toughness at the middle end 2 and elasticity-intensified, end practicality in raising by upper and lower cross structure.

Described upper support structure is arranged in the toe place at the end 2, palm place and heel place, described lower support structure is arranged in half sole place and the arch of foot place at the end 2, according to pin body, supporting construction distribution is carried out, reasonable in design for the force situation of sole, the support performance at the end 2 in lifting.

Also be provided with EVA supporting layer (not shown) at the described large end 1 and the interior end 3, described EVA supporting layer is coated on the periphery at the described middle end 2; EVA supporting layer is provide auxiliary support structure and protective layer in the middle end 2, and avoid the existing picture of the stressed fatigue in the middle end 2, the deformability of the middle end 2 avoiding foreign body intrusion to cause weakens phenomenon, and in guarantee, the moment end 2 is in effective duty.

The described large end 1 is the sheet rubber large end, the bottom at the described large end 1 is provided with imitative vertebra striped, combined with the end 2 in formation ridge structure supporting layer, be easy to the integrally bending of sole, improve the elastic deformation power of sole entirety, so that various state of ground can be adapted to, not easily sprain, improve walking comfort.

The vertebral support shock-absorbing sole designed in sum, the spine support structure at the end in tradition is modified into the damping torsion-resisting element of class vertebral support structure, large egative film adopts imitative vertebra lines, sole entirety is structurally possessed good damping effect and anti-torsion effect, alleviate the weight of sole entirety, spinal structure design makes sole more possess sight simultaneously.

Above, be only the embodiment utilizing this origination techniques content, the modification that any those skilled in the art use this creation to do, change, all belong to the scope of the claims that this creation is advocated, and be not limited to those disclosed embodiments.

Claims (5)

1. vertebral support shock-absorbing sole, comprise the large end, the interior end be located at the middle end at the large end and be located at at middle the end, it is characterized in that: the described middle end is made up of the wave mediella in class vertebra shape and multiple support chip be arranged on wave mediella, each described support chip on described wave mediella along in the length bearing of trend at the end be arranged in order distribution, the two ends of described support chip are in the laterally projecting class in the form of sheets spinal crest of Rauber structure of both sides up and down of described wave mediella, laterally projecting on the upside of wave mediella of support chip be on support portion, laterally projecting on the downside of wave mediella of support chip is lower support portion, the support chip be positioned on the crest location of described wave mediella forms upper support structure, the support chip be positioned in the wave trough position of described wave mediella forms lower support structure, the end of the upper support portion of support chip and applied thereto in described upper support structure, end and the large end in lower support portion, are separated, in described lower support structure, the end of the upper support portion of support chip and the interior end, are separated, and fit in end and the large end in lower support portion.

2. vertebral support shock-absorbing sole according to claim 1, is characterized in that: described upper support structure is arranged in the toe place at the end, palm place and heel place, and described lower support structure is arranged in half sole place and the arch of foot place at the end.

3. vertebral support shock-absorbing sole according to claim 1 and 2, is characterized in that: the described large end is the sheet rubber large end, and the bottom at the described large end is provided with imitative vertebra striped.

4. vertebral support shock-absorbing sole according to claim 3, is characterized in that: be also provided with EVA supporting layer at the described large end and the interior end, and described EVA supporting layer is coated on the periphery at the described middle end.

5. a vertebral support damping shoe, is characterized in that: comprise the arbitrary described vertebral support shock-absorbing sole of claim 1-4.