CN218303660U - Sole and shoe - Google Patents

Abstract

The utility model relates to a shoes technical field, concretely relates to sole and shoes, the utility model discloses a sole includes body and a plurality of supporting part, and this internal top open-ended that has holds the chamber, and a plurality of supporting parts are established and are being held the intracavity, and a plurality of supporting parts are holding intracavity interval arrangement, form a plurality of airflow channel who supplies gas flow in every supporting part and between the adjacent supporting part, and a plurality of airflow channel communicate each other, the utility model provides a sole can make gas flow in shoes, improves the air permeability of shoes.

Description

Sole and shoe

Technical Field

The utility model relates to a shoemaking technical field, concretely relates to sole and shoes.

Background

The shoes are the wearing article of daily trip of people, and people also more and more high to the air permeability of shoes, and the adoption is mostly adopted in the correlation technique to set up the bleeder vent at vamp or sole, and the bleeder vent on the vamp can only improve the gas permeability at the instep face, and the bleeder vent of sole can only let inside and outside air intercommunication of shoes, but no matter whether set up the bleeder vent at vamp or sole and can not reach the effect of automatic ventilation.

SUMMERY OF THE UTILITY MODEL

The present invention aims at solving at least one of the technical problems in the related art to a certain extent. Therefore, the embodiment of the utility model provides a sole, can make gas flow in shoes, improves the air permeability of shoes.

The embodiment of the utility model provides a shoes have still been provided.

The utility model discloses sole, include: the device comprises a body, a first fixing piece and a second fixing piece, wherein an accommodating cavity which is opened upwards is formed in the body; the supporting parts are arranged in the containing cavity and arranged at intervals in the containing cavity, a plurality of airflow channels for air to flow are formed in each supporting part and adjacent to each other, and the airflow channels are communicated with each other.

The utility model discloses the sole can make gas flow in shoes, improves the air permeability of shoes.

In some embodiments, the support portion includes at least one first support portion for supporting the force application point of the foot of the human body, a plurality of second support portions arranged at intervals in sequence around the periphery of the first support portion, and a plurality of third support portions arranged at intervals in sequence around the periphery of the second support portion.

In some embodiments, the first supporting portion is a supporting body and is a columnar arrangement, the second supporting portion is a boosting portion and is an arc-shaped sheet arrangement, the second supporting portion surrounds the first supporting portion, and the second supporting portion is obliquely deformed to be used for boosting gas flowing.

In some embodiments, the third support portion is an extension portion, and the third support portion is arranged around the second support portion and is spread in a corrugated shape with the first support portion as a base point.

In some embodiments, the air flow channel includes a first air flow channel, a second air flow channel, and a third air flow channel that communicate with each other, the first air flow channel being formed between the first support and the second support, the second air flow channel being formed within and between the second support and the third support, the third air flow channel being formed within and between adjacent third supports.

In some embodiments, the first air flow passage includes a first air flow section formed between the first support and the second support, the first air flow section includes a plurality of first air flow passages and a plurality of first air flow gaps, the plurality of first air flow passages are integrally diffused in a corrugated shape in a first direction, the plurality of first air flow gaps are diffused in a corrugated shape in a second direction, the first direction is orthogonal to the second direction, the plurality of first air flow gaps are communicated with each other through the plurality of first air flow passages, and the first air flow section is communicated with the second air flow passage and the third air flow passage.

In some embodiments, the second air flow passage includes a third air flow section formed in the second support portion and between the second support portion and the third support portion, the third air flow section includes a plurality of third air flow channels and a plurality of third air flow gaps, the plurality of third air flow channels are corrugated to diverge in the first direction as a whole, the plurality of third air flow gaps are corrugated to diverge in the second direction, the plurality of third air flow gaps are communicated with each other through the plurality of third air flow channels, and the third air flow section is communicated with the first air flow passage and the third air flow passage.

In some embodiments, the third air flow channel includes a fifth air flow section formed within and between adjacent third supports, the fifth air flow section being in communication with the second air flow channel and the first air flow channel.

In some embodiments, the first support part is a support body, the support body comprises a first support body and a second support body, the first support body and the second support body are arranged in a column shape, the first support body is used for supporting a first metatarsal bone force application point of a human foot, and the second support body is used for supporting a heel bone force application point of the human foot; and/or the second supporting part is a boosting part, the boosting part comprises a first boosting part and a second boosting part, the first boosting part and the second boosting part are arranged in an arc-shaped sheet shape, the first boosting part is arranged around the first supporting body, the second boosting part is arranged around the second supporting body, and the first boosting part and the second boosting part are used for boosting the flow of gas; and/or the third supporting part is an extending part, the extending part comprises a first extending part and a second extending part, the first extending part and the second extending part are diffused in a corrugated shape by taking the first supporting part as a base point, the first extending part is arranged around the first boosting part, and the second extending part is arranged around the second boosting part.

In some embodiments, the first gas flow channel further comprises a second gas flow section formed between the second support body and the second booster, the second gas flow section comprising a plurality of second gas flow channels and a plurality of second gas flow gaps, the plurality of second gas flow channels being corrugated in a first direction as a whole, the plurality of second gas flow gaps being corrugated in a second direction, the plurality of second gas flow gaps being in communication with each other through the plurality of second gas flow channels, the second gas flow section being in communication with the second gas flow channel and the third gas flow channel; the second airflow channel further comprises a fourth airflow section formed between the plurality of second boosting portions and between the second boosting portion and the second extending portion, the fourth airflow section comprises a plurality of fourth airflow channels and a plurality of fourth airflow gaps, the plurality of fourth airflow channels are integrally diffused in a corrugated shape in the first direction, the plurality of fourth airflow gaps are diffused in a corrugated shape in the second direction, the plurality of fourth airflow gaps are communicated with each other through the plurality of fourth airflow channels, and the fourth airflow section is communicated with the first airflow channel and the third airflow channel.

In some embodiments, the support portion is formed by extending the body, and the body is integrally formed with the support portion.

In some embodiments, the heights of the plurality of supporting parts are gradually increased from the half sole part to the heel part in the length direction of the body, and the upper surfaces of the supporting parts are arranged along the shape of the sole of the human body.

The utility model discloses shoes, include: a sole comprising a sole according to any one of the embodiments above; an upper attached to the sole; the insole is arranged on the upper surface of the sole, and the insole is provided with air holes communicated with the air flow channel.

The utility model discloses shoes can improve shoes's air permeability.

Drawings

Fig. 1 is a schematic view of a sole according to an embodiment of the present invention.

Fig. 2 is a perspective view of a sole according to an embodiment of the present invention.

Fig. 3 is another perspective view of the sole according to the embodiment of the present invention.

Reference numerals are as follows:

a body 1, a half sole part 11, a heel part 12, a containing cavity 13,

a support part 2, a first support part 21, a first support body 211, a second support body 212, a second support part 22, a first boosting part 221, a second boosting part 222, a third support part 23, a first extension part 231, a second extension part 232,

the flow channel 3, the first flow channel 31,

the first air flow section 311, the first air flow gap 3111, the first air flow passage 3112,

the second airflow section 312, the second airflow gap 3121, the second airflow channel 3122,

the second air flow channel 32 is provided with a second air flow channel,

a third gas flow segment 321, a third gas flow gap 3211, a third gas flow channel 3212,

fourth airflow segment 322, fourth airflow gap 3221, fourth airflow channel 3222,

a third flow path 33, a fifth flow path 331, a fifth flow gap 3311, and a fifth flow path 3312.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1 to 3, a sole of the present invention includes a body 1 and a plurality of support portions 2.

In some embodiments, the body 1 has an accommodating cavity 13 therein, which is open upward. The plurality of supporting parts 2 are arranged in the accommodating cavity 13, the plurality of supporting parts 2 are arranged in the accommodating cavity 13 at intervals, a plurality of air flow channels 3 for air to flow are formed in each supporting part 2 and between the adjacent supporting parts 2, and the plurality of air flow channels 3 are communicated with each other.

Specifically, the body 1 is arranged with a palm portion 11 and a heel portion 12 opposite to each other in a longitudinal direction (a front-rear direction as shown in fig. 2) thereof, that is, the palm portion 11 is located on a front side of the body 1, the heel portion 12 is located on a rear side of the body 1, and gaps between the plurality of support portions 2 form the gas flow passage 3 through which gas flows.

Alternatively, when the human body walks, the heel touches the ground, and the heel presses the support part 2 of the heel part 12, so that the air in the heel part 12 flows towards the direction of the forefoot part 11; when the heel lifts the sole to land, the sole pressurizes the supporting part 2 of the half sole part 11, so that the air in the half sole part 11 flows to the toe and is finally exhausted from the sole; when the foot of the human body is completely lifted off the ground, the supporting part 2 is restored to be deformed, and external air is sucked into the air flow channel 3, so that the air in the sole flows and is replaced, and the air permeability of the sole is improved.

For example, the support 2 is integrally injection molded with the body 1.

For example, the support 2 is a rib, and the arrangement of the plurality of supports 2 may be set according to actual conditions.

In some embodiments, the support 2 includes at least one first support 21, a plurality of second supports 22 and a plurality of third supports 23, the first support 21 is used for supporting the acting points of the feet of the human body, the plurality of second supports 22 are sequentially arranged around the periphery of the first support 21 at intervals, and the plurality of third supports 23 are sequentially arranged around the periphery of the second supports 22 at intervals.

Specifically, a plurality of second support portions 22 are disposed around the first support portion 21, a plurality of third support portions 23 are disposed around the second support portions 22 to form a plurality of gas flow channels 3, and the plurality of gas flow channels 3 communicate with each other so that gas can smoothly flow in the support portions 2, thereby improving the fluidity of gas in the shoe sole.

The embodiment of the utility model provides a through the airflow channel 3 that forms between first supporting part 21, second supporting part 22 and the third supporting part 23, can make the weight that reduces the sole when gaseous flow, but also can reduce the material of sole, and then reduction in production cost.

In some embodiments, the first supporting portion 21 is the supporting body 1 and is provided in a column shape, the second supporting portion 22 is a boosting portion and is provided in an arc-shaped sheet shape, the second supporting portion 22 is disposed around the first supporting portion 21, and the second supporting portion 22 is obliquely deformed for boosting the flow of the gas.

Optionally, since the supporting body 1 supports the foot acting point of the human body, the supporting performance of the supporting body 1 can be improved due to the arrangement of the columnar structure. Boosting portion encircles and supports 1 settings of body, establishes boosting portion into arc sheet structure, and when the sole received pressure, the slope limit took place for arc sheet structure, does benefit to the gaseous flow of boosting, and then improves the air permeability of shoes.

In some embodiments, the third support portion 23 is an extension portion, and the third support portion 23 is disposed around the second support portion 22 and is arranged in a diffused manner in a corrugated shape with the first support portion 21 as a base point.

Optionally, an extension is provided in the arch position, the extension is arranged around the boosting part to diffuse in a corrugated shape with the support body 1 as a base point to improve the fluidity of the gas in the sole.

In some embodiments, the air flow channel 3 includes a first air flow channel 31, a second air flow channel 32, and a third air flow channel 33 that communicate with each other, the first air flow channel 31 is formed between the first support portion 21 and the second support portion 22, the second air flow channel 32 is formed in the second support portion 22 and between the second support portion 22 and the third support portion 23, and the third air flow channel 33 is formed in the third support portion 23 and between adjacent third support portions 23.

Specifically, the first, second, and third gas flow passages 31, 32, and 33 communicating with each other allow gas to flow within the accommodation chamber 13 of the body 1.

In some embodiments, the first air flow passage 31 includes a first air flow section 311 formed between the first support part 21 and the second support part 22, the first air flow section 311 includes a plurality of first air flow passages 3112 and a plurality of first air flow gaps 3111, the plurality of first air flow passages 3112 are diffused in a corrugated shape as a whole in the first direction, the plurality of first air flow gaps 3111 are diffused in a corrugated shape in the second direction, the first direction is arranged orthogonal to the second direction, the plurality of first air flow gaps 3111 are communicated with each other through the plurality of first air flow passages 3112, and the first air flow section 311 is communicated with the second air flow passage 32 and the third air flow passage 33.

Specifically, a plurality of first air flow passages 3112 are formed between the first support part 21 and the plurality of second support parts 22 in the left-right direction, a plurality of first air flow gaps 3111 are formed between the first support part 21 and the plurality of second support parts 22 in the front-rear direction, and the plurality of first air flow gaps 3111 are communicated with each other through the plurality of first air flow passages 3112, so that the gas can flow between the plurality of first air flow gaps 3111 and the plurality of first air flow passages 3112, and the flow speed of the gas in the first air flow section 311 is increased.

Optionally, the first gas flow section 311 is communicated with the second gas flow channel 32 and the third gas flow channel 33, so that gas flows into or out of the first gas flow section 311, and the gas flow speed of the first gas flow section 311 is increased.

It will be appreciated that the first direction may be a left-right direction, and correspondingly the second direction is a front-rear direction.

In some embodiments, the second air flow path 32 includes a third air flow segment 321 formed in the second support portion 22 and between the second support portion 22 and the third support portion 23, the third air flow segment 321 includes a plurality of third air flow passages 3212 and a plurality of third air flow gaps 3211, the plurality of third air flow passages 3212 are corrugated to diverge in the first direction, the plurality of third air flow gaps 3211 are corrugated to diverge in the second direction, the plurality of third air flow gaps 3211 are communicated with each other through the plurality of third air flow passages 3212, and the third air flow segment 321 is communicated with the first air flow path 31 and the third air flow path 33.

Specifically, a plurality of third airflow channels 3212 are formed in the second support portion 22 and between the second support portion 22 and the third support portion 23 in the left-right direction, a plurality of third airflow gaps 3211 are formed in the second support portion 22 and between the second support portion 22 and the third support portion 23 in the front-rear direction, and the plurality of third airflow gaps 3211 are communicated with each other through the plurality of third airflow channels 3212, so that the air can flow between the third airflow channels 3212 and the third airflow channels, and the flow speed of the air in the third airflow section 321 is increased.

Optionally, the third gas flow section 321 communicates with the first gas flow channel 31 and the third gas flow channel 33 so that gas flows between the first gas flow section 311 and the third gas flow section 321.

In some embodiments, the third air flow passage 33 includes a fifth air flow section 331 formed within the third support 23 and between adjacent third supports 23, the fifth air flow section 331 communicating with the second air flow passage 32 and the first air flow passage 31.

Specifically, the fifth gas flow section 331 includes a fifth gas flow gap 3311 and a fifth gas flow passage 3312, the fifth gas flow passage 3312 is formed in the left-right direction in the third support portion 23 and between the adjacent third support portions 23, the fifth gas gap is formed in the front-rear direction in the third support portion 23 and between the adjacent third support portions 23, and the fifth gas flow passage and the fifth gas gap communicate with each other.

Optionally, when gas flows between the plurality of support parts 2, the gas pushes the resilience of the plurality of support parts 2, so that the resilience effect of the sole can be improved while the gas circulation is improved, and the deodorization effect of the sole is further improved.

In some embodiments, the first supporting portion 21 is a supporting body 1, the supporting body 1 includes a first supporting body 211 and a second supporting body 212, the first supporting body 211 and the second supporting body 212 are arranged in a column shape, the first supporting body 211 is used for supporting a first metatarsal bone force application point of a human foot, and the second supporting body 212 is used for supporting a heel bone force application point of the human foot; and/or the presence of a gas in the gas,

the second support portion 22 is a boosting portion, the boosting portion includes a first boosting portion 221 and a second boosting portion 222, the first boosting portion 221 and the second boosting portion 222 are provided in an arc-shaped sheet shape, the first boosting portion 221 is arranged around the first support body 211, the second boosting portion 222 is arranged around the second support body 212, and the first boosting portion 221 and the second boosting portion 222 are used for boosting the flow of gas; and/or the presence of a gas in the gas,

the third support portion 23 is an extension portion, the extension portion includes a first extension portion 231 and a second extension portion 232, the first extension portion 231 and the second extension portion 232 are spread in a corrugated shape with the first support portion 21 as a base point, the first extension portion 231 is disposed around the first boost portion 221, and the second extension portion 232 is disposed around the second boost portion 222.

Specifically, the first support body 211 is disposed adjacent to the forefoot portion 11, the second support body 212 is disposed adjacent to the heel portion 12, the first support body 211 and the second support body 212 support the force applying point of the foot of the human body, and both the first support body 211 and the second support body 212 are provided with a columnar structure, so as to improve the support performance of the first support body 211 and the second support body 212.

Alternatively, the first boost portion 221 is arranged around the first support body 211 so that the first boost portion 221 boosts the gas of the forefoot portion 11, the second boost portion 222 is arranged around the second support body 212 so that the second boost portion 222 boosts the gas of the rear heel portion 12, and the gas is circulated between the forefoot portion 11 and the rear heel portion 12 by the boosting action of the first boost portion 221 and the second boost portion 222.

The utility model discloses sole, when heel extrusion second support body 212, second helping part 222 emptys forward to make gas flow from heel 12 to palm 11. When the sole presses the first support body 211, the first boosting part 221 is pressed to press the air from the second air flow channel 32 to the first air flow channel 31, and gradually presses the air around the sole until the air flows out through the upper surface of the sole, after the pressing of the foot is finished, the first boosting part 221 recovers the deformation, and the air is sucked into the first air flow channel 31 and the second air flow channel 32 again and flows into the first air flow channel 31.

It can be understood that the number of the first boosting portion 221, the second boosting portion 222, the first extending portion 231 and the second extending portion 232 is plural, the number of the first supporting body 211 and the second supporting body 212 may be one, and the number of the first supporting body 211, the second supporting body 212, the first boosting portion 221, the second boosting portion 222, the first extending portion 231 and the second extending portion 232 may be plural, so as to achieve a better supporting effect.

In some embodiments, the first airflow channel 31 further includes a second airflow section 312 formed between the second support body 212 and the second boost 222, the second airflow section 312 includes a plurality of second airflow channels 3122 and a plurality of second airflow gaps 3121, the plurality of second airflow channels 3122 are corrugated to diverge in the first direction as a whole, the plurality of second airflow gaps 3121 are corrugated to diverge in the second direction, the plurality of second airflow gaps 3121 communicate with each other through the plurality of second airflow channels 3122, and the second airflow section 312 communicates with the second airflow channel 32 and the third airflow channel 33.

The second airflow channel 32 further includes a fourth airflow section 322 formed between the second boosting portions 222 and the second extension 232, the fourth airflow section 322 includes a plurality of fourth airflow channels 3222 and a plurality of fourth airflow gaps 3221, the plurality of fourth airflow channels 3222 are corrugated and spread in the first direction, the plurality of fourth airflow gaps 3221 are corrugated and spread in the second direction, the plurality of fourth airflow gaps 3221 are communicated with each other through the plurality of fourth airflow channels 3222, and the fourth airflow section 322 is communicated with the first airflow channel 31 and the third airflow channel 33.

Optionally, a first air flow section 311 is formed between the first support body 211 and the first boosting part 221, and a second air flow section 312 is formed between the second support body 212 and the second boosting part 222.

Optionally, a plurality of second airflow channels 3122 are formed between the second support body 212 and the plurality of second boosting portions 222 in the left-right direction, a plurality of second airflow gaps 3121 are formed between the second support body 212 and the plurality of second boosting portions 222 in the front-rear direction, and the plurality of second airflow gaps 3121 are communicated with each other through the plurality of second airflow channels, so that air can be conveniently circulated between the second airflow gaps 3121 and the second airflow channels 3122, and the flow speed of the air in the second airflow section 312 is increased.

Optionally, a third air flow section 321 is formed between the first boosting portion 221 and the first extending portion 231, and a fourth air flow section 322 is formed between the second boosting portion 222 and the second extending portion 232. A plurality of fourth air flow passages 3222 are formed between the plurality of second boosting parts 222 and the plurality of second extending parts 232 in the left-right direction, a plurality of fourth air flow gaps 3221 are formed between the plurality of second boosting parts 222 and the plurality of second extending parts 232 in the front-back direction, and the plurality of fourth air flow gaps 3221 are communicated with each other through the plurality of fourth air flow passages 3222, so that air can conveniently flow between the fourth air flow passages 3222 and the fourth air flow passages 3222, and the flow speed of the air in the fourth air flow section 322 is improved.

In some embodiments, the support 2 is formed by extending the body 1, and the body 1 and the support 2 are integrally formed.

Alternatively, the integrally formed body 1 and the supporting portion 2 can reduce the connecting process of the supporting portion 2 in the body 1, and the integrally formed arrangement can improve the supporting effect of the supporting portion 2.

Optionally, when the supporting portion 2 is subjected to an external force, the supporting portion 2 deforms to press the gas, so as to facilitate the gas to flow through the gas.

In some embodiments, the heights of the plurality of supporting parts 2 are gradually increased from the front palm part 11 to the rear heel part 12 in the length direction of the body 1, and the upper surfaces of the supporting parts 2 are arranged along the shape of the sole of the human body.

Optionally, the body 1 is configured to simulate the shape of a sole of a human body, the height of the support portion 2 is gradually increased in a front-to-back direction, that is, the height of the first support body 211 is smaller than the height of the second support body 212, the height of the first boosting portion 221 is smaller than the height of the second boosting portion 222, the height of the first extension portion 231 is gradually increased in a front-to-back direction, and the height of the second extension portion 232 is gradually increased in a front-to-back direction, so as to improve the shock absorption effect of the second support body 212, the second boosting portion 222 and the second extension portion 232.

In other words, the front end of the lower surface of the accommodation chamber 13 is higher than the rear end so that the height of the first support part 21 is lower than the height of the second support part 22 while the first support part 21 and the second support part 22 are flush with the upper end surface of the body 1.

It will be understood that the heights of the plurality of support parts 2 may be all set to be the same, or the height of one of the plurality of support parts 2 may be higher than that of the other support part 2, instead of being gradually increased, for example, the heights of the second support body 212 and the second booster part 222 may be only set to be greater than those of the other support parts 2, that is, the heights of the other support parts 2 except the heights of the second support body 212 and the second booster part may be set to be the same, so as to improve the shock absorbing effect of the heel.

The utility model discloses shoes of embodiment include sole, vamp and shoe-pad.

The sole comprises a sole employing any of the embodiments described above. The vamp is connected on the sole. The insole is arranged on the upper surface of the sole, and the insole is provided with air holes communicated with the air flow channel 3.

Optionally, the vamp is connected on the sole, and the vamp can be leather, fly to weave surface fabric, textile fabric, also is provided with the bleeder vent on the vamp, and in the external gas entered into shoes through the bleeder vent on the vamp, the gas in the shoes flowed to the external world through the bleeder vent on the vamp.

Optionally, the position of the sole corresponding to the insole is provided with an air vent, the air vent is communicated with the airflow channel 3 of the sole so as to transmit the air in the sole into the shoe through the air vent on the insole, and transmit the air in the shoe into the sole through the air vent, so that the air in the sole and the air in the shoe flow, and then the air in the sole is exchanged with the outside air through the air vent on the vamp and the air vent on the insole, thereby realizing the effect of automatic ventilation, and further improving the ventilation performance of the shoe.

The utility model discloses shoes are when walking, form the air current through the extrusion of front and back sole to airflow channel 3 in the sole to form a circulation air current with the vamp bleeder vent, solve the ventilative and moist problem at shoes sole position, thereby reach deodorant effect, can also improve the resilience performance of sole simultaneously, have the shock attenuation effect.

Optionally, the setting of a plurality of supporting parts 2 can improve the resilience performance and the shock attenuation effect of sole, and the concave convex face that a plurality of supporting parts 2 formed in extrusion process can massage the sole moreover, improves the travelling comfort of shoes.

Optionally, the vamp can be through moulding plastics integral connection on the sole, and the convenience of being connected of vamp and sole can be improved to the mode of integral connection. The sole and the vamp can also be connected in a cold bonding mode.

The utility model discloses shoes holds chamber 13 through seting up on the sole to set up a plurality of supporting parts 2 in holding chamber 13, through a plurality of interval arrangement's supporting part 2, reduced the whole weight of sole on the one hand, and then reduce the weight of shoes, the air current channel 3 of on the other hand sole and the cooperation of shoe-pad and vamp can improve the air permeability of shoes.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description of the present invention and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

In the present application, unless expressly stated or limited otherwise, a first feature "on" or "under" a second feature may be directly contacting the second feature or the first and second features may be indirectly contacting the second feature through intervening media. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the present disclosure, the terms "one embodiment," "some embodiments," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present disclosure. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Moreover, various embodiments or examples and features of various embodiments or examples described in this specification can be combined and combined by one skilled in the art without being mutually inconsistent.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (13)

1. A sole, comprising:

the body is internally provided with an accommodating cavity which is opened upwards;

the supporting parts are arranged in the containing cavity and are arranged at intervals in the containing cavity, each supporting part is arranged in the supporting part and adjacent to each other, a plurality of airflow channels for air to flow are formed between the supporting parts, and the airflow channels are communicated with each other.

2. The sole according to claim 1, wherein the support portion includes at least one first support portion for supporting a foot point of force of a human body, a plurality of second support portions arranged in turn at intervals around a periphery of the first support portion, and a plurality of third support portions arranged in turn at intervals around a periphery of the second support portion.

3. The sole according to claim 2, characterized in that said first support portion is a support body, presenting a cylindrical configuration, said second support portion is a boost portion, presenting an arc-shaped sheet configuration, said second support portion being arranged around said first support portion, said second support portion being inclined to deform for boosting the flow of gas.

4. The shoe sole according to claim 3, wherein the third support portion is an extension portion that is arranged around the second support portion and is arranged in a diffused manner in a corrugated shape with the first support portion as a base point.

5. The sole of claim 2, wherein the air flow channel includes a first air flow channel, a second air flow channel, and a third air flow channel in communication with each other, the first air flow channel being formed between the first support and the second support, the second air flow channel being formed within the second support and between the second support and the third support, the third air flow channel being formed within the third support and between adjacent third supports.

6. The sole of claim 5, wherein the first air flow channel comprises a first air flow segment formed between the first support and the second support, the first air flow segment including a plurality of first air flow channels that generally diverge in a wave-like manner in a first direction and a plurality of first air flow gaps that diverge in a wave-like manner in a second direction, the first direction being orthogonal to the second direction, the plurality of first air flow gaps being in communication therebetween via the plurality of first air flow channels, the first air flow segment being in communication with the second air flow channel and the third air flow channel.

7. The sole of claim 6, wherein the second air flow passage includes a third air flow segment formed within the second support portion and between the second support portion and the third support portion, the third air flow segment including a plurality of third air flow channels and a plurality of third air flow gaps, the plurality of third air flow channels generally diverging in a wave-like manner in the first direction, the plurality of third air flow gaps diverging in a wave-like manner in the second direction, the plurality of third air flow gaps communicating with one another through the plurality of third air flow channels, the third air flow segment communicating with the first air flow passage and the third air flow passage.

8. The sole of claim 5, wherein the third air flow channel includes a fifth air flow section formed within the third support portion and between adjacent ones of the third support portions, the fifth air flow section being in communication with the second air flow channel and the first air flow channel.

9. The sole according to claim 5, characterized in that said first support portion is a support body comprising a first support body and a second support body, said first support body and said second support body being arranged in a column, said first support body being adapted to support a first metatarsal foot impact point of a human foot, said second support body being adapted to support a heel bone impact point of a human foot;

and/or the presence of a gas in the gas,

the second supporting part is a boosting part, the boosting part comprises a first boosting part and a second boosting part, the first boosting part and the second boosting part are arranged in an arc-shaped sheet shape, the first boosting part is arranged around the first supporting body, the second boosting part is arranged around the second supporting body, and the first boosting part and the second boosting part are used for boosting the flow of gas;

and/or the presence of a gas in the gas,

the third supporting portion is an extending portion, the extending portion includes a first extending portion and a second extending portion, the first extending portion and the second extending portion are spread in a corrugated shape with the first supporting portion as a base point, the first extending portion is arranged around the first boosting portion, and the second extending portion is arranged around the second boosting portion.

10. The sole of claim 9, wherein the first air flow channel further comprises a second air flow section formed between the second support body and the second booster, the second air flow section comprising a plurality of second air flow channels and a plurality of second air flow gaps, the plurality of second air flow channels generally undulating in a first direction, the plurality of second air flow gaps undulating in a second direction, the plurality of second air flow gaps communicating with each other through the plurality of second air flow channels, the second air flow section communicating with the second air flow channel and the third air flow channel;

the second airflow channel further includes a fourth airflow section formed between the plurality of second boosting portions and between the second boosting portion and the second extension portion, the fourth airflow section includes a plurality of fourth airflow channels and a plurality of fourth airflow gaps, the plurality of fourth airflow channels are integrally diffused in a corrugated manner in the first direction, the plurality of fourth airflow gaps are diffused in a corrugated manner in the second direction, the plurality of fourth airflow gaps are communicated with each other through the plurality of fourth airflow channels, and the fourth airflow section is communicated with the first airflow channel and the third airflow channel.

11. The sole of claim 1, wherein the support portion is formed by extending the body, the body being integrally formed with the support portion.

12. The sole according to claim 1, wherein the heights of the plurality of support portions are gradually increased from the half sole portion to the heel portion in the longitudinal direction of the body, and the upper surfaces of the support portions are arranged to follow the shape of the sole of a human body.

13. A shoe, comprising:

a sole according to any one of claims 1 to 12;

an upper attached to the sole;

the insole is arranged on the upper surface of the sole, and the insole is provided with air holes communicated with the air flow channel.

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