阅读说明：本技术 一种具有呼吸、缓震及起步阻尼功能的鞋底及具有该鞋底的鞋子 (Sole with breathing, cushioning and starting damping functions and shoe with same ) 是由 许景贤 于 2019-11-07 设计创作，主要内容包括：本发明公开了一种具有呼吸、缓震及起步阻尼功能的鞋底,该鞋底利用气槽墙将空气腔分隔为后气腔、前气腔、通风道腔及岛气腔,气槽墙包括弹性公墙和弹性母墙,弹性母墙包括第一壁及第二壁,第一壁与第二壁构成母墙槽,弹性公墙与母墙槽适配贴靠连接,弹性公墙的端部与母墙槽围成缓震气腔,鞋弹性中底及鞋弹性大底的两者其一与弹性公墙固定密封连接,另一者相对地与弹性母墙固定密封连接,岛气腔通风孔设置在所述岛气腔的对应位置上,本发明的鞋底能减小地面对脚部的冲击力,且有缓震和起步阻尼效果。本发明同时公开了一种鞋子,它包括上述鞋底,该鞋子有利于减小地面对脚部的冲击力,也有缓震和阻尼效果。(The invention discloses a sole with functions of breathing, cushioning and starting damping, which is characterized in that an air cavity is divided into a rear air cavity, a front air cavity, an air duct cavity and an island air cavity by an air groove wall, the air groove wall comprises an elastic male wall and an elastic female wall, the elastic female wall comprises a first wall and a second wall, the first wall and the second wall form a female wall groove, the elastic male wall is in fit and attached connection with the female wall groove, the end part of the elastic male wall and the female wall groove form a cushioning air cavity, one of an elastic insole of a shoe and an elastic outsole of the shoe is fixedly and hermetically connected with the elastic male wall, the other one of the elastic insole of the shoe and the elastic outsole of the shoe is fixedly and hermetically connected with the elastic female wall, and an air vent of the island air cavity is arranged at a corresponding position of the island air cavity. The invention also discloses a shoe, which comprises the sole, and the shoe is beneficial to reducing the impact force of the ground to the foot and has the cushioning and damping effects.)

1. The utility model provides a sole with breathe, bradyseism and starting damping function, includes shoes elasticity insole (1) and shoes elasticity outsole (2), its characterized in that: the shoe elastic midsole (1) and the shoe elastic outsole (2) enclose an air cavity (90), an air groove wall (80) is arranged in the air cavity (90), the air groove wall (80) divides the air cavity (90) into a rear air cavity (97), a front air cavity (99), an air duct cavity (96) and an island air cavity (98) used for enabling part of the air groove wall (80) enclosed to generate starting damping action on a forefoot (70), the island air cavity (98) is arranged in the front part of the front air cavity (99), the rear air cavity (97) is communicated with the island air cavity (98) through the air duct cavity (96), an island air cavity vent hole (11) is formed in the shoe elastic midsole (1), the island air cavity vent hole (11) is arranged at a corresponding position of the island air cavity (98), and the island air cavity vent hole (11) is communicated with the island air cavity (98), the air groove wall (80) comprises an elastic male wall (81) and an elastic female wall (82), the elastic female wall (82) comprises a first wall (822) and a second wall (823), the first wall (822) and the second wall (823) form a female wall groove (821), the elastic male wall (81) is matched, attached and connected with the female wall groove (821), the end part of the elastic male wall (81) and the female wall groove (821) enclose a shock absorption air cavity (824), one of the shoe elastic midsole (1) and the shoe elastic outsole (2) is fixedly and hermetically connected with the elastic male wall (81), the other one of the shoe elastic midsole and the shoe elastic outsole is fixedly and hermetically connected with the elastic female wall (82) oppositely, and the rear air cavity (97), the front air cavity (99), the island air cavity (98) and the shock absorption air cavity (824) can be compressed or reset by self elasticity.

2. The sole with breathing, cushioning and starting damping functions as claimed in claim 1, wherein: the front inner side of the shoe elastic insole (1) is provided with a front vent hole (12), the front vent hole (12) is arranged at the corresponding position of the front air cavity (99), the middle part of the shoe elastic insole (1) is provided with a rear vent hole (13), the rear vent hole (13) is arranged at the corresponding position of the front air cavity (99), the rear vent hole (13) is arranged at the outer side of the air duct cavity (96), the front vent hole (12) is arranged at the inner side of the air duct cavity (96), and the front vent hole (12) is communicated with the rear vent hole (13) through the front air cavity (99).

3. The sole with breathing, cushioning and starting damping functions as claimed in claim 1, wherein: one of the elastic midsole (1) and the elastic outsole (2) is integrally formed with the elastic male wall (81), and the other is integrally formed with the elastic female wall (82) in a manner opposite thereto.

4. The sole with breathing, cushioning and starting damping functions as claimed in claim 1, wherein: one of the elastic midsole (1) and the elastic outsole (2) is adhesively connected to the elastic male wall (81), and the other is adhesively connected to the elastic female wall (82) in an opposed manner.

5. The sole with breathing, cushioning and starting damping functions as claimed in claim 1, wherein: the island air cavity (98) is circular.

6. The sole with breathing, cushioning and starting damping functions as claimed in claim 1, wherein: the island air cavity (98) is in a horizontally-arranged rectangular shape.

7. The sole with breathing, cushioning and starting damping functions as claimed in claim 6, wherein: the sole anti-skidding shoes are characterized in that damping walls (83) used for generating an uphill anti-skidding effect on the half sole (70) are respectively arranged on two sides of the ventilation channel cavity (96), the damping walls (83) are fixedly connected with one of the shoe elastic outsole (2) and the shoe elastic midsole (1), or the damping walls (83) are fixedly connected with the shoe elastic outsole (2) and the shoe elastic midsole (1).

8. The sole with breathing, cushioning and starting damping functions as claimed in claim 1, wherein: the second wall (823) is higher than the first wall (822).

9. The sole with breathing, cushioning and starting damping functions as claimed in claim 1, wherein: the end parts of the elastic male wall (81), the first wall (822) and the second wall (823) are flat-topped, symmetrical sharp-angled, semicircular or wedge-shaped, wherein the sharp end of the wedge-shaped is provided with a fillet.

10. A shoe, characterized in that: the sole with the functions of breathing, cushioning and starting damping as claimed in any one of claims 1 to 9, wherein the shoe elastic outsole (2) or the shoe elastic midsole (1) is connected with an upper (3), and the upper (3) and the shoe elastic midsole (1) enclose a wearing cavity of the shoe.

Technical Field

The invention relates to the technical field of soles and shoes, in particular to a sole with breathing, cushioning and starting damping functions and a shoe with the sole.

Background

At present, non-sandals such as sports shoes, business leather shoes and the like and slippers are generally wrapped on feet by uppers, and the feet are not sweated due to unsmooth air circulation in the shoes, so that the feet are sweated, foot odor is caused, foot diseases are easily caused, people need to walk in daily life many times, and when people walk for a long distance, the feet are tired and uncomfortable, and even the health of the feet is influenced due to the fact that the ground continuously impacts and vibrates the feet. The prior art has some shoes that can improve the air circulation in the shoes, for example chinese utility model patent 201721332567.4 discloses a respiratory shoes, and it includes the respiratory sole to reach the respiratory vamp of being connected with the respiratory sole, and the respiratory sole includes: the hollow half arc shape elasticity of rubber that corresponds sole middle part region is breathed the ball to and a plurality of first air inlet and outlet breathing holes that correspond sole tiptoe region and a plurality of second air inlet and outlet breathing holes that correspond sole heel region, breathe the vamp and include: a plurality of third air inlet and outlet breathing holes corresponding to a tiptoe area and a plurality of fourth air inlet and outlet breathing holes corresponding to a heel area, wherein the plurality of third air inlet and outlet breathing holes and the plurality of fourth air inlet and outlet breathing holes are arranged close to the breathing sole; it can be seen that the breathing shoe simply improves the air circulation in the shoe, and has the disadvantages of not being able to effectively reduce the impact force on the foot when a person walks, and not generating a cushioning effect, so the inventor believes that there is a need for improvement in the prior art.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and firstly provides a sole which can reduce the impact force of the ground to the foot and has the effects of cushioning and starting damping.

The purpose of the invention is realized by the following technical scheme.

The invention comprises a shoe elastic midsole and a shoe elastic outsole, wherein the shoe elastic midsole and the shoe elastic outsole enclose an air cavity, an air groove wall is arranged in the air cavity, the air groove wall divides the air cavity into a rear air cavity, a front air cavity, an air duct cavity and an island air cavity for enabling part of the air groove wall enclosing the air cavity to generate starting damping action on a foot half sole, the island air cavity is arranged in the front part of the front air cavity, the rear air cavity is communicated with the island air cavity through the air duct cavity, the shoe elastic midsole is provided with an island air cavity vent hole, the island air cavity vent hole is arranged at the corresponding position of the island air cavity, the island air cavity vent hole is communicated with the island air cavity, the air groove wall comprises an elastic male wall and an elastic female wall, the elastic female wall comprises a first wall and a second wall, the first wall and the second wall form a female wall groove, and the elastic male wall is in fit and close contact with the female wall groove, the end part of the elastic male wall and the female wall groove form a shock absorption cavity, one of the shoe elastic insole and the shoe elastic outsole is fixedly and hermetically connected with the elastic male wall, the other one of the shoe elastic insole and the shoe elastic outsole is fixedly and hermetically connected with the elastic female wall oppositely, and the rear air cavity, the front air cavity, the island air cavity and the shock absorption cavity can be compressed or reset by the elasticity of the rear air cavity, the front air cavity, the island air cavity and the shock absorption cavity.

Preferably, the front inner side of the elastic insole of the shoe is provided with a front vent hole, the front vent hole is arranged at the corresponding position of the front air cavity, the middle part of the elastic insole of the shoe is provided with a rear vent hole, the rear vent hole is arranged at the corresponding position of the front air cavity, the rear vent hole is arranged at the outer side of the air duct cavity, the front vent hole is arranged at the inner side of the air duct cavity, and the front vent hole is communicated with the rear vent hole through the front air cavity.

Preferably, one of the elastic midsole and the elastic outsole is integrally formed with the elastic male wall, and the other is integrally formed with the elastic female wall.

Preferably, one of the elastic midsole and the elastic outsole is adhesively connected to the elastic male wall, and the other is oppositely adhesively connected to the elastic female wall.

Preferably, the island air chambers have a circular shape.

Preferably, the island air chambers have a horizontally-placed rectangular shape.

Preferably, the two sides of the ventilation channel cavity are respectively provided with a damping wall for generating an ascending anti-skidding effect on the forefoot, and the damping walls are fixedly connected with one of the shoe elastic outsole and the shoe elastic midsole or the damping walls are fixedly connected with the shoe elastic outsole and the shoe elastic midsole.

Preferably, the second wall is higher than the first wall.

Preferably, the end portions of the elastic male wall, the first wall and the second wall are flat-topped, or have a symmetrical sharp angle shape, or have a semicircular shape, or have a wedge shape with a rounded tip.

The invention also provides a shoe, which comprises the sole with the functions of breathing, cushioning and starting damping in any technical scheme, wherein the elastic outsole or the elastic insole is connected with an upper, and the upper and the elastic insole enclose a wearing cavity of the shoe.

Compared with the prior art, the invention has the beneficial effects that: the sole is characterized in that an air cavity is divided into a rear air cavity, a front air cavity, a ventilation channel cavity and an island air cavity by an air groove wall, the air groove wall comprises an elastic male wall and an elastic female wall, the elastic female wall comprises a first wall and a second wall, the first wall and the second wall form a female wall groove, the elastic male wall is in fit and attached connection with the female wall groove, the end part of the elastic male wall and the female wall groove form a shock absorption air cavity, one of the elastic insole and the elastic outsole of the shoe is fixedly and hermetically connected with the elastic male wall, the other one of the elastic insole and the elastic outsole of the shoe is fixedly and hermetically connected with the elastic female wall, an island air cavity ventilation hole is arranged at the corresponding position of the island air cavity, and the island air cavity is communicated with the island air cavity; through the arrangement, when a person walks, the heel steps on the rear air cavity to compress air in the rear air cavity, the compressed air is ejected out from the ventilation hole of the island air cavity, air circulation in the shoe is facilitated, the air in the shock absorption air cavity can be compressed when the sole steps on, and the air is extruded out from the elastic male wall and the first wall or the second wall; in addition, when a person starts, the half sole of the foot can be blocked by a part of the air groove wall which is arranged at the back of the island air cavity and is surrounded by the air groove wall, and the blocking process is blocked by elastic buffering, so that the invention has the function of starting damping, is beneficial to preventing the half sole of the foot from sliding forwards relative to the elastic insole of the shoe, reduces the sliding friction of the half sole of the foot, is beneficial to preventing the skin injury of the half sole of the foot, and is also beneficial to saving physical strength. And (II) the shoes are provided with the soles, so that the shoes are beneficial to reducing the impact force of the ground to the feet when people walk, and have the cushioning and starting damping effects.

Drawings

Fig. 1 is a front view of the sole of the present invention.

Fig. 2 is an exploded perspective view of the present invention.

Fig. 3 is an enlarged view of fig. 2 at a.

Fig. 4 is a schematic view showing the structure of the elastic outsole of the shoe of the present invention.

Fig. 5 is a front view of the resilient midsole of the present invention.

Fig. 6 is a rear view of the inventive resilient midsole.

Fig. 7 is a schematic view of a cross-sectional structure of fig. 4 taken along the direction B-B.

Fig. 8 is a schematic view of the structure of fig. 5 in a cross section along the direction C-C.

Fig. 9 is a schematic view of the combination of the elastic midsole and the elastic outsole.

Fig. 10 is an enlarged view of fig. 9 at D.

Fig. 11 is a schematic structural diagram of the second embodiment corresponding to fig. 10.

Fig. 12 is a schematic structural diagram of the third embodiment corresponding to fig. 10.

Fig. 13 is a schematic structural diagram of a fourth embodiment corresponding to fig. 10.

Fig. 14 is a schematic structural diagram of the fifth embodiment corresponding to fig. 10.

Fig. 15 is a schematic view of gait analysis of human walking.

Fig. 16 is a schematic view showing a state of a rear foot when the vehicle starts to run.

Fig. 17 is an enlarged view of fig. 16 at E.

Fig. 18 is a schematic structural diagram of a sixth embodiment of the present invention.

Fig. 19 is a schematic structural diagram of a seventh embodiment of the present invention.

Fig. 20 is a schematic view of an ascending state of the seventh embodiment.

Description of reference numerals: 1-a shoe resilient midsole; 11-island air cavity vent; 12-front vent; 13-rear vent; 14-elastomeric support columns; 15-edge tenon; 2-shoe elastic outsole; 21-edge sealing groove; 3-shoe upper; 70-forefoot; 80-air duct walls; 81-elastic male wall; 82-elastic mother wall; 821-mother wall slot; 822-a first wall; 823-second wall; 824-a cushioning air cavity; 83-damping walls; 90-air chamber; 96-airway cavity; 97-rear air cavity; 98-island air cavity; 99-front air cavity.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1 and 2, the sole of the present embodiment includes an elastic midsole 1 and an elastic outsole 2, and both the elastic midsole 1 and the elastic outsole 2 are made of a soft elastic material.

As shown in fig. 1 and 9, the elastic midsole 1 and the elastic outsole 2 enclose an air chamber 90, and specifically, as shown in fig. 7, an edge sealing groove 21 is formed at the inner bottom edge of the elastic outsole 2, the edge sealing groove 21 may be of an inverted trapezoidal cross section, an edge tenon 15 is formed at the edge of the elastic midsole 1, the edge tenon 15 and the edge sealing groove 21 are adapted to be assembled, adhesively bonded, and then the lower bottom surface of the elastic midsole 1 and the inner bottom surface of the elastic outsole 2 enclose the air chamber 90 with good edge sealing performance. In order to support the weight of the human body, as shown in fig. 2 and 6, a plurality of elastic support columns 14 may be further provided on the bottom surface of the elastic midsole 1 of the shoe.

As shown in fig. 1, an air groove wall 80 is provided in the air chamber 90, the air groove wall 80 divides the air chamber 90 into a rear air chamber 97, a front air chamber 99, an air duct chamber 96, and an island air chamber 98 for making a part of the air groove wall 80 enclosing it exert a starting damping action on the forefoot 70, in other words, "it" in the aforementioned "part of the air groove wall 80 enclosing it" means an island air chamber 98, that is, the air groove wall 80 enclosing the island air chamber 98 can exert a damping action on the forefoot 70 into which a person enters when starting, the island air chamber 98 is provided in the front of the front air chamber 99, so that the island air chamber 98 is disposed in the range of the front air chamber 99 as if it were an island, the rear air chamber 97 communicates with the island air chamber 98 through the air duct chamber 96, the elastic midsole 1 is formed with the island air chamber 11, the island air chamber 11 is provided in a position corresponding to the island air chamber 98, the island air chamber 11 communicates with the island air chamber 98, and the island air chamber 11 can be provided in a position corresponding to the root of, the wind resistance is lower, so that the blown air flow is stronger, and the ventilation in the shoe is more facilitated. As shown in fig. 2 to 10, the air groove wall 80 includes an elastic male wall 81 and an elastic female wall 82, the elastic female wall 82 includes a first wall 822 and a second wall 823, the first wall 822 and the second wall 823 form a female wall 821, the elastic male wall 81 is in fit, abutting and connection with the female wall 821, an end portion of the elastic male wall 81 and the female wall 821 enclose a cushioning air chamber 824, one of the elastic midsole 1 and the elastic outsole 2 is fixedly and hermetically connected with the elastic male wall 81, and the other is relatively fixedly and hermetically connected with the elastic female wall 82, in other words, the air groove wall 80 can be disposed upside down, and since the elastic midsole 1 and the elastic outsole 2 are soft elastic materials, the rear air chamber 97, the front air chamber 99, the island 98 and the cushioning air chamber 824 can be compressed or restored by their own elasticity.

The operation principle of the present embodiment will be described in detail below: fig. 15 shows a walking gait of a person during walking, in the process from a gait U to a gait W, the heel touches the ground first, then the entire sole touches the ground gradually, when the heel touches the ground, the heel steps on the rear air chamber 97, so that the air in the rear air chamber 97 is squeezed to enter the island air chamber 98 through the air duct chamber 96, and then is ejected from the air vent hole 11 of the island air chamber, the ejected air is favorable for ventilation inside the shoe, so that the foot feels cool, in the process from walking to a gait Z, the sole leaves the ground, the air chamber 90 is reset by its own elasticity, the air is sucked into the rear air chamber 97 from the air vent hole 11 of the island air chamber, the foot continuously walks, the foot periodically obtains a blowing effect, the shoe air is circulated, so that the occurrence of foot odor is favorably reduced, and the health of the foot is favorable. During the processes from gait U to gait W, the air in the shock-absorbing chamber 824 is also squeezed by the end of the elastic male wall 81 and the bottom of the female wall 821 of the elastic female wall 82, because the elastic male wall 81 is in fit and contact with the female wall 821, the air in the shock-absorbing chamber 824 is not easily squeezed out at once, but has a compression process, which reduces the impact force of the ground on the foot, specifically, during the collision between the foot and the ground, the impact force of the ground on the foot is inversely proportional to the duration of the impact force according to the momentum theorem, the process of compressing the air actually prolongs the duration of the impact force of the ground on the foot, so the impact force of the ground on the foot is reduced, meanwhile, the air can be actually used as an elastomer, so the process of compressing the air is also a process of absorbing the shock of the foot, therefore, the present embodiment has a cushioning effect. Then, air is extruded out from between the elastic male wall 81 and the first wall 822 or the second wall 823, and after or while the air in the shock absorbing chamber 824 is extruded out, the elastic male wall 81 and the elastic female wall 82 collide with each other to be elastically deformed, thereby further reducing the impact force of the ground to the foot and facilitating the absorption of the impact shock energy. As shown in fig. 15, this gait is a state that the person just starts or takes a step forward after changing his foot, only the rear sole touches the ground, and the forefoot 70 touches the ground, as shown in fig. 16, at this time, the sole is bent, the front air chamber 99 is partially collapsed, the forefoot 70 can be blocked by a part of the air groove wall 80 near the rear of the island air chamber 98, and this blocking process is elastic buffer blocking, so there is a damping effect, which is favorable for preventing the forefoot 70 from slipping forward relative to the elastic midsole 1 of the shoe, reducing the sliding friction of the forefoot 70, and the relative sliding action of the forefoot 70 and the elastic midsole 1 of the shoe is useless, so that this embodiment can be favorable for preventing the skin damage of the forefoot 70 and also for saving physical strength when walking for a long distance, thus it can be seen that the present invention has significant progress.

Further, as shown in fig. 1, a front vent hole 12 is formed on the inner side of the front portion of the elastic midsole 1, the front vent hole 12 is disposed at a position corresponding to the front air chamber 99, a rear vent hole 13 is formed in the middle portion of the elastic midsole 1, the rear vent hole 13 is disposed at a position corresponding to the front air chamber 99, the rear vent hole 13 is disposed at the outer side of the air duct chamber 96, the front vent hole 12 is disposed at the inner side of the air duct chamber 96, the front vent hole 12 is communicated with the rear vent hole 13 through the front air chamber 99, during the gait V to gait W in fig. 15, the middle portion of the sole is firstly pressed to the middle outer side region of the front air chamber 99, then the forefoot 70 is pressed to the front portion region of the front air chamber 99, when the middle portion of the forefoot is pressed to the middle outer side region of the front air chamber 99, the middle portion of the sole simultaneously closes the rear vent hole 13, and also simultaneously compresses and then compresses and, the reason why the rear vent hole 13 is provided at the outside of the air duct chamber 96 is that the middle portion of the front air chamber 99 and the area at the inside of the outsole are located corresponding to the arch of the foot, and the portion of the arch is difficult to close the rear vent hole 13 due to the upward arch. When the foot is separated from the ground, the front air chamber 99 is elastically restored by itself, thus being disposed to further facilitate the air circulation inside the shoe.

Furthermore, one of the elastic midsole 1 and the elastic outsole 2 is integrally formed with the elastic male wall 81, and the other is integrally formed with the elastic female wall 82, so that in the assembly process of the sole, the assembly of the air groove wall 80 can be completed only by simple male and female insertion actions, and the assembly process of the sole is facilitated.

In some embodiments, one of the elastic midsole 1 and the elastic outsole 2 is bonded to the elastic male wall 81, and the other is bonded to the elastic female wall 82, so that the present embodiment can be bonded by appropriately adjusting the position of the air groove wall 80 according to the actual foot shape of the user, and flexibility is good.

In some embodiments, as shown in FIG. 2, island air cavity 98 has a circular shape, which advantageously reduces airflow resistance and allows airflow to better exit from island air cavity vents 11.

In some embodiments, as shown in FIG. 18, island air chambers 98 are rectangular in shape and air channel walls 80 enclosing rectangular island air chambers 98 are relatively flat and provide a significant amount of damping to forefoot 70.

In some embodiments, as shown in fig. 11, the second wall 823 is higher than the first wall 822, so that when the elastic midsole 1 of the shoe is pressed down, the first wall 822 is touched first, and then the two walls are touched at the same time, the impact buffering effect is increased from weak to strong, which is beneficial to better feeling of the sole of the foot when a person walks.

In some embodiments, as shown in fig. 10, the end portions of the elastic male wall 81, the first wall 822 and the second wall 823 are formed to be flat-topped, or to be symmetrical and sharp-angled as shown in fig. 12, or to be semicircular as shown in fig. 14, or to be wedge-shaped as shown in fig. 13, that is, the end portions of the elastic male wall 81, the first wall 822 and the second wall 823 are formed to be freely combinable, and only some combinations are illustrated in the drawings, the structure of fig. 10 has a strong initial buffering effect, while the structures of fig. 12, 13 and 14 can make the buffering effect from weak to strong, which is beneficial for better feeling of sole when a person walks. When the end portions of the first wall 822 and the second wall 823 are in the wedge shape, the inclined surfaces of the first wall 822 and the second wall 823 are arranged oppositely, and the effect of guiding when the elastic midsole 1 and the elastic outsole 2 of the shoe are assembled is also achieved.

In some embodiments, as shown in fig. 19, the air duct cavity 96 is provided with a damping wall 83 on each side thereof for generating an anti-slip function on the sole 70, the damping wall 83 is fixedly connected to one of the elastic outsole 2 and the elastic midsole 1, or the damping wall 83 is fixedly connected to both the elastic outsole 2 and the elastic midsole 1. The damping wall 83 may be of similar construction and connection to the air channel wall 80 or may be of simple single wall construction. When a person goes up a slope, the sole of the foot is easy to slip on the elastic midsole 1, and at this time, corresponding to the gait X in fig. 15, after the forefoot 70 collapses the forefoot air chamber 99, as shown in fig. 20, the damping walls 83 can play a role of damping the forefoot 70, which is beneficial to preventing the sole from slipping on the elastic midsole 1.

The soles in the above figures are all corresponding to the left foot, and for the right sole, the description is omitted here because it is only the left-right symmetrical relation.

Meanwhile, the invention also provides a shoe adopting the embodiment, which comprises the sole, wherein the shoe elastic outsole 2 or the shoe elastic midsole 1 is connected with the upper 3, the upper 3 and the shoe elastic midsole 1 enclose a wearing cavity of the shoe, and the shoe is provided with the sole, so that the shoe has the beneficial effect of the sole.