CN213045585U - Wear-resisting marathon shoes of shock attenuation - Google Patents

Abstract

The utility model discloses a shock-absorbing wear-resisting marathon shoes, including sole insole and buffering sole, the buffering sole passes through the inboard region of arc perk piece and sole heel, make the extrusion adhesion fixed connection of being convenient for on the sole insole, through the inboard recess of inboard wear-resisting piece inboard, and the half sole EVA and the rubber bottom collocation of inboard recess have the bending ditch, and the collocation has stable guide line in the sole EVA, like this through leading the wire casing, make the effective guide to fall to the ground gait tend to normal, and difficult torsion, and play the effect of physics bradyseism, and through crooked slot, the half sole is crooked when being convenient for run, like this effectively reduce energy loss, and the sole insole passes through the lower side connecting block adhesion fixed connection on the buffering sole, thereby difficult coming off, and through the hard material of the insole connecting block below the upper side connecting block, make the arch of foot support of effective reinforcing, effectively decompose the heel impact force, reduce the torsion that produces because the step falls to the ground just in running to the utmost extent.

Description

Wear-resisting marathon shoes of shock attenuation

Technical Field

The utility model relates to a shoes material technical field specifically is a wear-resisting marathon shoes of shock attenuation.

Background

Marathon is a long run event with a distance of 42.195 km. The choice of a pair of comfortable marathon shoes to protect the runner's foot is particularly important because of the long distance involved in marathon and the terrain-dependent roads on which they are played. The marathon shoe is characterized by lightness, thinness and good heat dissipation. Light, let the runner get up lighter, thin, let the runner sole can sense the unsmooth on ground immediately, the health reacts in real time, and the heat dissipation is the highest part of cost, because advance at a high speed for a long time, sole and shoes friction can produce the high fever, and the running shoes that the heat dissipation function is stronger are more favourable to the runner. In the running process, because of no good buffer structure, the shoe is easy to sprain and the heel is shocked by vibration

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wear-resisting marathon shoes of shock attenuation to solve the current marathon shoes that provide in the above-mentioned background art and do not have fine buffer structure's problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a wear-resisting marathon shoes of shock attenuation, includes sole insole and buffering sole, the upper end at the buffering sole is fixed to the sole insole, the upper end rear side in sole insole is provided with the vamp heel, the front side position of vamp heel is provided with the upside vamp on the sole insole, be provided with inboard tongue in the middle of the inboard of upside vamp, the outside of inboard tongue is located and is provided with the elasticity shoelace on the upside vamp, the inside of upside vamp is located and is provided with inside shoe-pad on the sole insole, the outside of upside vamp is provided with outside figure.

Preferably, the buffering sole includes that the arc sticks up piece, sole heel, inboard wear-resisting piece and inboard recess, the rear end that the arc sticks up the piece is provided with the sole heel, the lower extreme inboard that the arc sticks up the piece is provided with inboard wear-resisting piece, the inboard of inboard wear-resisting piece is provided with inboard recess, the arc sticks up the piece and is connected on the sole insole with the sole heel.

Preferably, inside shoe-pad includes that high-elastic EVA fills up shell, shoe-pad arc groove and inboard figure, be provided with the shoe-pad arc groove in the middle of the outside of high-elastic EVA pad shell, the heel outside of high-elastic EVA pad shell is provided with inboard figure, high-elastic EVA pad shell is connected on the sole insole.

Preferably, the sole insole includes upside connecting block, insole connecting block and downside connecting block, the lower extreme of upside connecting block is provided with the insole connecting block, the lower extreme of insole connecting block is provided with the downside connecting block, the downside connecting block is connected on the buffering sole.

Preferably, the buffering sole and the middle sole are fixedly connected through extrusion adhesion.

Preferably, the upper vamp is made of a sandwich mesh material.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the buffering sole structure is convenient for buffering use, and the buffering sole is conveniently extruded, adhered and fixedly connected to the middle sole of the sole through the arc-shaped raised block and the inner side area of the heel of the sole, so that the buffering sole is not easy to fall off when in use;

(2) make being convenient for cushion the impact through being provided with sole insole structure, the sole insole is through downside connecting block fixed connection on buffering the sole, is difficult for droing like this when using, and when using, through the hard material of upside connecting block below insole connecting block for effectively strengthening the arch of foot and supporting, effectively decomposing the heel impact force, the torsion that produces because of the step falls to the ground just in the at utmost reduces and runs, prevents that the bottom middle section of downside connecting block from distorting.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the cushioning sole of the present invention;

FIG. 3 is a schematic view of the inner insole structure of the present invention;

fig. 4 is a schematic view of the structure of the middle sole of the utility model.

In the figure: 1. an inner tongue; 2. tightening and loosening the shoelace; 3. an upper vamp; 4. an outer pattern; 5. a heel of the vamp; 6. a sole mid-sole; 61. an upper side connecting block; 62. a middle sole connecting block; 63. a lower side connecting block; 7. a cushioning sole; 71. an arc-shaped warping block; 72. a heel of a sole; 73. an inner wear block; 74. an inner side groove; 8. an inner insole; 81. high-elastic EVA pad shell; 82. the shoe pad is provided with an arc groove; 83. an inner pattern.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: a shock-absorbing wear-resistant marathon shoe comprises a sole insole 6 and a buffer sole 7, wherein the sole insole 6 is fixed at the upper end of the buffer sole 7, the buffer sole 7 and the sole insole 6 are fixedly connected through extrusion adhesion, a heel of the buffer sole 7 is made of a high-foaming material, a half sole EVA and a rubber sole of the buffer sole 7 are matched with a bent groove, and a stable guide line is matched in the sole EVA;

the buffering sole 7 comprises an arc warping block 71, a sole heel 72, an inner side wear-resistant block 73 and an inner side groove 74, the sole heel 72 is arranged at the rear end of the arc warping block 71, the inner side wear-resistant block 73 is arranged on the inner side of the lower end of the arc warping block 71, the inner side groove 74 is arranged on the inner side of the inner side wear-resistant block 73, and the arc warping block 71 and the sole heel 72 are connected to the sole midsole 6;

specifically, as shown in fig. 1 and fig. 2, when the mechanism is used, firstly, the arc-shaped raised block 71 and the inner side area of the heel 72 of the sole are used for facilitating extrusion, adhesion and fixation on the midsole 6 of the sole, so that the insole is not easy to fall off when in use, the inner side groove 74 on the inner side of the inner side wear-resistant block 73 is used, the half sole EVA and the rubber sole of the inner side groove 74 are matched with a curved groove, and a stable guide line is matched in the EVA, so that the landing gait is effectively guided to be normal through the guide line groove, the sole is not easy to twist, and the physical cushioning effect is achieved, and the half sole is bent when in running through the curved groove, so that the energy loss is effectively reduced, and the use is facilitated;

the rear side of the upper end of the insole 6 is provided with a vamp heel 5, the front side of the vamp heel 5 is positioned on the insole 6 and is provided with an upper vamp 3, the upper vamp 3 and the insole 6 are reshaped by adopting a seamless joint technology, the upper vamp 3 is made of a sandwich mesh material, and the surfaces of the upper vamp 3 and the vamp heel 5 are provided with single-layer mesh, single-layer reflective PU and multi-logo;

the sole insole 6 comprises an upper connecting block 61, an insole connecting block 62 and a lower connecting block 63, the lower end of the upper connecting block 61 is provided with the insole connecting block 62, the lower end of the insole connecting block 62 is provided with the lower connecting block 63, and the lower connecting block 63 is connected to the buffer sole 7;

specifically, as shown in fig. 1 and 4, when the mechanism is used, firstly, the lower connecting block 63 is fixedly connected to the buffering sole 7 in an adhesion manner, so that the mechanism is not easy to fall off when in use, and when in use, the hard material of the insole connecting block 62 below the upper connecting block 61 effectively enhances the arch support, effectively decomposes the heel impact force, reduces the torsion force generated by the uneven landing of the footsteps during running to the maximum extent, and prevents the bottom middle section of the lower connecting block 63 from being twisted;

an inner side tongue 1 is arranged in the middle of the inner side of the upper vamp 3, an elastic shoelace 2 is arranged on the upper vamp 3 on the outer side of the inner side tongue 1, an inner insole 8 is arranged on the insole 6 inside the upper vamp 3, and an outer side pattern 4 is arranged on the outer side of the upper vamp 3;

the inner insole 8 comprises a high-elasticity EVA pad shell 81, an insole arc groove 82 and an inner side pattern 83, the insole arc groove 82 is arranged in the middle of the outer side of the high-elasticity EVA pad shell 81, the inner side pattern 83 is arranged on the outer side of the heel of the high-elasticity EVA pad shell 81, and the high-elasticity EVA pad shell 81 is connected to the middle sole 6;

specifically, as shown in fig. 1 and 3, when the mechanism is used, firstly, the high-elasticity EVA cushion shell 81 is fixedly connected to the middle sole 6 in a sleeved mode, and when the high-elasticity EVA cushion shell 81 is sleeved, the insole arc groove 82 on the inner side of the high-elasticity EVA cushion shell 81 is used for enabling the attaching to be more compact, and when the mechanism is used, a good prompt effect is achieved through the inner side graph 83.

The working principle is as follows: the utility model discloses when using, upside vamp 3 and vamp heel 5 seamless joint are fixed on sole insole 6, effectively increase holistic support nature and parcel nature like this to promote the product value and feel, promoted the travelling comfort of preceding palm like this greatly, and when using, because of upside vamp 3 and vamp heel 5 the surface is equipped with individual layer screen cloth, individual layer reflection of light PU and many weilogo, increased the security at night like this and cool dazzling nature. And when using, through the inside shoe-pad 8 of 6 inboards in sole insole, it is more comfortable to dress like this, moreover through inside shoe-pad 8's antiskid nature for it is more stable when running. Sole insole 6 is through upside connecting block 61, insole connecting block 62 and downside connecting block 63 constitute, sole insole 6 is through downside connecting block 63 adhesion fixed connection on buffering sole 7, be difficult for droing when using like this, and when using, hard material through upside connecting block 61 below insole connecting block 62, make effective reinforcing arch of foot support, effectively decompose the heel impact force, the torsion that produces because of the step falls to the ground not just in the at utmost reduces in running, prevent the distortion in the bottom middle section of downside connecting block 63, the use of running of being convenient for like this. When wearing, through the inboard region of upside vamp 3 and vamp heel 5, the personnel of being convenient for like this dress, and inboard tongue 1 is then laminated on personnel's instep, later fixes through elasticity shoelace 2, is difficult for droing when running like this. When the shoe runs, the buffering shoe sole 7 passes through the buffering shoe sole 7 at the lower end of the shoe sole insole 6, so that buffering is effectively realized, the buffering shoe sole 7 consists of an arc-shaped raised block 71, a shoe sole heel 72, an inner side wear-resisting block 73 and an inner side groove 74, the buffering shoe sole 7 passes through the inner side areas of the arc-shaped raised block 71 and the shoe sole heel 72, so that the shoe sole is convenient to extrude, adhere and fixedly connect to the middle sole 6, is not easy to fall off when in use, when in use, the inner wear-resistant block 73 passes through the inner groove 74 at the inner side, the half sole EVA and the rubber bottom of the inner groove 74 are matched with the bent groove, the EVA on the foot bottom is matched with a stable guide wire, so that the landing gait is effectively guided to be normal through the guide wire groove, and the bending groove is not easy to twist and plays a physical shock absorption role, so that the half sole is bent when the bicycle runs, the energy loss is effectively reduced, and the bicycle is convenient to use.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a wear-resisting marathon shoes of shock attenuation, includes sole insole (6) and buffering sole (7), its characterized in that: the upper end at buffering sole (7) is fixed in sole insole (6), the upper end rear side of sole insole (6) is provided with vamp heel (5), the vamp heel is provided with upside vamp (3) on sole insole (6) with the front side position of (5), be provided with inboard tongue (1) in the middle of the inboard of upside vamp (3), the outside of inboard tongue (1) is located and is provided with elasticity shoelace (2) on upside vamp (3), the inside of upside vamp (3) is located and is provided with inside shoe-pad (8) on sole insole (6), the outside of upside vamp (3) is provided with outside figure (4).

2. A shock absorbing, wear resistant marathon shoe as claimed in claim 1, wherein: buffering sole (7) stick up piece (71), sole heel (72), the wear-resisting piece of inboard (73) and inboard recess (74) including the arc, the rear end that the arc sticks up piece (71) is provided with sole heel (72), the lower extreme inboard that the arc sticks up piece (71) is provided with the wear-resisting piece of inboard (73), the inboard of the wear-resisting piece of inboard (73) is provided with inboard recess (74), the arc sticks up piece (71) and sole heel (72) and connects on sole insole (6).

3. A shock absorbing, wear resistant marathon shoe as claimed in claim 1, wherein: inside shoe-pad (8) are including high-elastic EVA pad shell (81), shoe-pad arc groove (82) and inboard figure (83), be provided with shoe-pad arc groove (82) in the middle of the outside of high-elastic EVA pad shell (81), the heel outside of high-elastic EVA pad shell (81) is provided with inboard figure (83), high-elastic EVA pad shell (81) is connected on sole insole (6).

4. A shock absorbing, wear resistant marathon shoe as claimed in claim 1, wherein: sole insole (6) include upside connecting block (61), insole connecting block (62) and downside connecting block (63), the lower extreme of upside connecting block (61) is provided with insole connecting block (62), the lower extreme of insole connecting block (62) is provided with downside connecting block (63), downside connecting block (63) are connected on buffering sole (7).

5. A shock absorbing, wear resistant marathon shoe as claimed in claim 1, wherein: the buffering sole (7) is fixedly connected with the sole midsole (6).

6. A shock absorbing, wear resistant marathon shoe as claimed in claim 1, wherein: the upper vamp (3) is made of sandwich mesh cloth material.

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