CN220293133U - Sole and shoes are breathed in one-way breathing - Google Patents

Abstract

The utility model relates to a one-way ventilation breathing sole which is of a sole structure or a double-sole structure formed by a midsole and an outsole, wherein a converging groove, a guiding groove and an air sac groove are arranged on the upper surface of the sole or the lower surface of the midsole, the converging groove, the guiding groove and the air sac groove are integrally formed and are in through connection with the sole, a breathing hole which is through with the air sac groove is arranged on the side wall of the sole, a one-way air tap for opening or closing the breathing hole is arranged in the breathing hole, and when the converging groove, the guiding groove and the air sac groove are closed, a converging channel, a guiding channel and an air sac cavity are formed, air in the sole flows into the guiding channel through the converging channel, the guiding channel flows into the air sac cavity in one way, and is discharged out of the sole through the one-way air tap. The utility model forms a unidirectional exhaust channel through the converging channel, the flow guide channel, the air bag cavity and the unidirectional air tap, and the air in the shoe is exhausted in the daily walking process of the wearer, so that the shoe is kept dry and cool.

Description

Sole and shoes are breathed in one-way breathing

Technical Field

The utility model relates to the field of shoes, in particular to a one-way ventilation breathing sole.

Background

Shoes are common wearing articles in daily life, and the ventilation holes are arranged on the vamps of the traditional shoes to improve the ventilation property in the shoes, but the ventilation property is poor.

For solving the above-mentioned problem, the chinese patent of grant bulletin number CN218457450U discloses a one-way exhaust structure and one-way exhaust sole body thereof, and one-way exhaust structure sets up on the sole body, including the gas storehouse and with the intake duct and the air outlet of gas storehouse intercommunication, intake duct and air outlet are one-way air duct, one-way air duct is tesla valve structure, the one end that the intake duct deviates from the gas storehouse forms the inlet port that switches on with the shoes internal gas, the one end that the air outlet deviates from the gas storehouse forms the venthole that switches on with external gas, inlet port and venthole form the one-way air current channel of switching on through intake duct and air outlet. In the daily walking process of a wearer, the air in the shoe is exhausted, and does not flow back to the air bin, so that the repeated air suction and exhaust process is achieved, the air flow circulation in the shoe is formed, the breathing effect of ventilation in the shoe is achieved, the air flow in the shoe is improved, the hot air and sweat in the shoe can be effectively exhausted, the shoe is kept dry and cool, the air permeability is enhanced, and the use comfort is improved.

The Tesla valve structure has unidirectional high resistance, so that air flow is difficult to flow reversely, but the Tesla valve structure has limited airtight effect, dust and water outside the shoe enter the air bag cavity through the Tesla valve structure on the side surface of the sole body, and the air bag cavity is blocked, so that the shoe does not have ventilation effect.

Disclosure of Invention

In order to solve the problems, the utility model provides a one-way ventilation breathing sole.

The technical scheme is that the unidirectional ventilation breathing sole is characterized in that a converging groove is formed in the upper surface of the sole, the sole is of a single sole structure or a double-sole structure formed by a midsole and an outsole, a guide groove and an air bag groove are formed in the upper surface of the sole or the lower surface of the midsole, the converging groove, the guide groove and the air bag groove are integrally formed and are in through connection with the sole, a breathing hole which is through with the air bag groove is formed in the side wall of the sole, a unidirectional air outlet nozzle which is used for opening or closing the breathing hole is formed in the breathing hole, when the converging groove, the guide groove and the air bag groove are closed, a converging channel, a guide channel and an air bag cavity are formed, air in the sole flows into the guide channel through the converging channel, the guide channel flows into the air bag cavity in a unidirectional mode, and is discharged out of the sole through the unidirectional air outlet nozzle.

Preferably, the upper surface of sole body is equipped with the shoe-pad accommodation groove, the upper surface of shoe-pad accommodation groove is equipped with the sealing fin accommodation groove, the upper surface of shoe-pad accommodation groove winds the sealing fin accommodation groove outside is equipped with the converging groove, after the shoe-pad is arranged in the shoe-pad accommodation groove, the shoe-pad lower surface forms the converging channel with converging groove when being airtight bonding connection with sole body upper surface, be equipped with a plurality of bleeder vent that runs through shoe-pad upper surface and lower surface on the shoe-pad, the bleeder vent link up with converging channel, the sealing fin accommodation groove is in proper order from the sole to the heel by its upper surface undercut forming guiding gutter and gasbag groove, be equipped with the sealing fin on the sealing fin accommodation groove, form one-way guiding channel, gasbag chamber between sealing fin's lower surface and the sealing fin accommodation groove surface when airtight bonding connection, one end that one-way guiding channel deviates from the gasbag chamber forms the guiding channel entry.

Preferably, the sealing sheet is made of elastic material, and can be made of rubber, plastic, rubber-plastic mixture or foaming material.

Preferably, the sole body comprises a midsole and an outsole, the upper surface of the midsole is provided with an insole containing groove, the insole containing groove is provided with a converging groove formed by recessing the upper surface from the upper surface to the lower surface, the converging groove extends from the front sole to the arch area, the lower surface of the insole is connected with the upper surface of the sole in a sealing and bonding way, the lower surface of the midsole is provided with a diversion groove and an air bag groove formed by recessing the lower surface from the lower surface to the upper surface, a unidirectional diversion channel and an air bag cavity are formed between the lower surface of the midsole and the upper surface of the outsole in a sealing and bonding way, and one end of the unidirectional diversion channel, which is far away from the air bag cavity, forms a diversion channel inlet.

Preferably, the unidirectional flow guide channel has a tesla valve structure and extends from the bladder cavity to the corresponding forefoot and/or arch region.

Preferably, the unidirectional flow guide channel comprises an inflow channel and a unidirectional air inlet nozzle which are sequentially communicated, and the unidirectional air inlet nozzle is communicated with the air bag cavity and unidirectional flows the air in the inflow channel into the air bag cavity.

Preferably, the unidirectional flow guide channel comprises an inflow channel and a unidirectional air inlet nozzle which are sequentially communicated, and the unidirectional air inlet nozzle is communicated with the air bag cavity and unidirectional flows the air in the inflow channel into the air bag cavity.

Preferably, the collecting channel comprises an annular channel and a collecting channel, the annular channel is distributed around the toe cap wall surface, the collecting channel is distributed transversely and longitudinally on the forefoot region and/or the arch region, the collecting channel is communicated with the annular channel, the air holes on the insole are respectively communicated with the annular channel and the collecting channel, gas in the collecting channel enters the unidirectional flow guide channel through the inlet of the flow guide channel, and the gas flows into the air bag cavity in a unidirectional way through the unidirectional flow guide channel.

Preferably, the lower surface of the sole body is provided with an arc surface bulge structure at the position of the air bag cavity, and the sealing piece is provided with an arc surface bulge structure at the position of the air bag cavity.

Preferably, a supporting structure or a supporting fitting is arranged in the air bag cavity, and the supporting structure can be a spring or an elastic sponge.

A shoe comprises a one-way ventilation breathing sole, wherein the vamp is fixedly connected with the top edge of the one-way ventilation breathing sole to form a shoe cavity for accommodating a foot.

The utility model has the beneficial effects that: the utility model forms a unidirectional exhaust channel through the converging channel, the unidirectional flow guide channel, the air bag cavity and the unidirectional air outlet nozzle, and in the daily walking process of a wearer, the air in the shoe is exhausted, and the sealing effect of the blocking beads is arranged in the blocking channel of the air nozzle, so that water and dust are prevented from entering the shoe, the air flow circulation in the shoe is formed, the breathing effect of ventilation in the shoe is achieved, the air flow in the shoe is improved, the hot air and sweat in the shoe can be effectively exhausted, the shoe is kept dry and cool, the air permeability is enhanced, and the wearing comfort is improved.

Drawings

Fig. 1 is a structural diagram of a first embodiment of the present utility model.

Fig. 2 is a view of another view of the first embodiment of the present utility model.

Fig. 3 is a bottom view of a sole according to a first embodiment of the present utility model.

Fig. 4 is a diagram showing a structure of a sole body according to a first embodiment of the present utility model.

Fig. 5 is a block diagram of a sealing sheet according to a first embodiment of the present utility model.

Fig. 6 is a block diagram of an insole according to the first embodiment of the utility model.

FIG. 7 is a diagram of a one-way air outlet nozzle according to a first embodiment of the present utility model.

Fig. 8 is a top view of a first embodiment of the present utility model.

FIG. 9 is a schematic diagram showing a process of recovering air in the shoe by sucking air in the air bag cavity when the one-way air outlet nozzle is closed during foot lifting according to the embodiment of the utility model.

FIG. 10 is a schematic view of the embodiment of the present utility model, in which the air bag is compressed when the foot is pressed down, and the unidirectional air outlet nozzle is opened to discharge air.

Fig. 11 is a structural diagram of a second embodiment of the present utility model.

Fig. 12 is a view of another view of the second embodiment of the present utility model.

Fig. 13 is a diagram showing a structure of a sole body according to a second embodiment of the present utility model.

FIG. 14 is a schematic view of a one-way air inlet nozzle during foot lifting according to the second embodiment of the present utility model.

FIG. 15 is a schematic view of a one-way air inlet nozzle when the two feet are pressed down.

Fig. 16 is a structural view of a three-sole body according to an embodiment of the present utility model.

Fig. 17 is a three-structure diagram of an embodiment of the present utility model.

Fig. 18 is another view angle structural diagram of the third embodiment of the present utility model.

Fig. 19 is a structural diagram of a fourth embodiment of the present utility model.

Fig. 20 is a block diagram of a fourth alternative view of an embodiment of the present utility model.

Fig. 21 is a diagram of the structure of a midsole of the fourth embodiment of the present utility model.

Fig. 22 is a view showing a structure of a midsole in accordance with another aspect of the fourth embodiment of the present utility model.

Fig. 23 is a fifth configuration diagram of the embodiment of the present utility model.

Fig. 24 is a view of another view of the fifth embodiment of the present utility model.

Fig. 25 is a bottom view of a midsole of a fifth embodiment of the present utility model.

Fig. 26 is a structural diagram of a sixth embodiment of the present utility model.

Fig. 27 is another view angle structural diagram of a sixth embodiment of the present utility model.

Fig. 28 is a diagram of the structure of a midsole of the sixth embodiment of the present utility model.

Fig. 29 is a schematic diagram showing the opening of the unidirectional air outlet nozzle when the foot is lifted in the fourth to sixth embodiments.

Fig. 30 is a schematic diagram showing the closing of the unidirectional air outlet nozzle when the four-foot embodiment to the six-foot embodiment are stepped on.

FIG. 31 is a schematic diagram showing the opening of the one-way air intake nozzle when the foot is lifted in the fourth to sixth embodiments.

Fig. 32 is a schematic diagram showing the closing of the one-way air inlet nozzle when the four-foot pedal is stepped on in the fourth to the sixth embodiments.

Labeling and describing:

100. a sole body; 110. a sink groove; 120. a unidirectional diversion trench; 121. an inflow channel; 130. an air bag groove; 140. a breathing hole; 150. an insole accommodating groove; 160. a midsole; 170. a outsole; 180. a sealing sheet accommodating groove; 190. an air tap mounting groove;

200. a sealing sheet;

210. a tesla valve; 211. a diversion channel inlet; 220 balloon lumen;

300 insoles; 310 breather holes; 320. a confluence channel; 321. an annular channel; 322. a collecting channel;

400. one-way air outlet nozzle; 410. an air inlet of the air tap; 420. an air tap air outlet;

500. one-way air inlet tap;

600. and a cambered surface bulge structure.

Detailed Description

As shown in fig. 1 to 10, the present embodiment provides a one-way ventilation breathing sole, in the present embodiment, the sole body is made of rubber, EVA, TPU, TPR, TR, PU, rubber-plastic mixture, foaming materials, such as rubber materials, wear-resistant and anti-slip, or the sole body is made of EVA foaming particles, the density of the EVA foaming particles is small, the wear resistance is good, the hardness is low, the rebound resilience is good, the tensile strength is high, the tear resistance is good, the overall quality of the sole body 100 is light, the elasticity is good, the cushioning property is good, the shock absorption performance of the sole body 100 is increased, the upper surface of the sole body 100 is provided with an insole accommodating groove 150, the upper surface of the insole accommodating groove 150 is provided with a sealing piece accommodating groove 180, the sealing piece accommodating groove 180 is sequentially recessed from the upper surface to the lower surface from the front sole to the heel to form a one-way x and an air bag groove 130, the lower surface of the sole body 100 is provided with a cambered surface bump structure 600 corresponding to the air bag groove 130, the unidirectional flow guide groove 120 and the air bag groove 130 are provided with the sealing sheet 200, the sealing sheet 200 is an elastic sheet, in this embodiment, the elastic sheet is a TPU sheet, when the lower surface of the elastic sheet is in airtight bonding connection with the surface of the insole containing groove 150, a tesla valve 210 and an air bag cavity 220 are formed between the unidirectional flow guide groove 120 and the air bag groove 130, that is, the sealing sheet 200 completely covers the unidirectional flow guide groove 120 and the air bag groove 130, the sealing sheet 200 is provided with an arc surface bulge structure 600 corresponding to the air bag groove 130, the position corresponding to the air bag groove 130 is provided with an arc surface bulge structure 600, the arc surface bulge structure 600 increases the air bag cavity space, the upper surface of the insole containing groove 150 is provided with a converging groove 110 around the outer side of the sealing sheet containing groove 180, after the insole 300 is placed in the insole containing groove 150, when the lower surface of the insole 300 is in airtight bonding connection with the upper surface of the sole body, a converging groove 110 forms a converging channel 320, the tesla valve 210 extends from the air chamber 220 to the corresponding forefoot and/or arch region, one end of the tesla valve 210, which is away from the air chamber 220, forms a diversion channel inlet 211, the confluence channel 320 comprises an annular channel 321 and a confluence channel 322, the annular channel 321 is distributed around the toe wall, the confluence channel 322 is distributed and arranged transversely and longitudinally in the forefoot region, the confluence channel 322 is communicated with the annular channel 321, the insole 300 is provided with a plurality of ventilation holes 310 penetrating through the upper surface and the lower surface of the insole 300, the ventilation holes 310 are respectively communicated with the annular channel 321 and the confluence channel 322, the gas in the shoes enters the annular channel 321 and/or the confluence channel 322 through the ventilation holes 310, the gas in the annular channel 321 is concentrated through the confluence channel 322, the gas in the confluence channel 322 enters the air chamber 220 through the diversion channel inlet 211 and the tesla valve 210, the lateral surface of the sole body is provided with breathing holes 140 which are communicated with the air chamber 220, the breathing holes 140 are provided with unidirectional air outlet nozzles 400 for opening or closing the breathing holes 140, and the unidirectional air outlet nozzles 400 adopt the unidirectional structure disclosed in the patent CN 216363888U. A collecting channel 322 is connected to the inside of the tesla valve 210 through a guide channel inlet 211, and when the balloon cavity 220 is compressed, the one-way exhaust is performed, and the balloon cavity is restored by one-way air inlet of the tesla valve 210. The insole receiving groove 150, the sealing sheet receiving groove 180, the unidirectional diversion groove 120, the air sac groove 130, the breathing hole 140 and the sole body 100 are integrally formed. The air bag cavity is internally provided with a supporting structure, and the supporting structure can be a spring or elastic sponge.

The ventilation process of the ventilation shoes in actual use is as follows;

as shown in fig. 9-10, during walking, the air bag cavity 220 is compressed by foot pressing or the recovery process of lifting foot, as the power for sucking and exhausting the air in the shoe, when the air bag cavity 220 recovers, the unidirectional air outlet nozzle 400 is in a closed state, and the air in the shoe is absorbed during recovery of the air bag cavity 220, so that the air in the shoe can enter the confluence channel 320 through the air holes 310 of the insole 300, and enter the air bag cavity 220 in one direction through the tesla valve 210, when the wearer steps on, the air bag cavity 220 is compressed due to the pressing force of the heel when stepping on foot, and the air in the air bag cavity 220 is exhausted through the unidirectional air outlet nozzle 400. According to the utility model, the air in the shoe can be discharged out of the shoe along the confluence channel 320, the Tesla valve 210, the air bag cavity 220 and the unidirectional air outlet nozzle 400 by naturally walking and extruding the air bag, the Tesla valve and the unidirectional air outlet nozzle are respectively arranged at two ends of the air bag cavity, and the air outlet nozzle is closed when the air bag cavity is restored to inhale, so that the Tesla valve is positioned in the air flow forward direction, and better ventilation effect is achieved.

Detailed description of the utility model

As shown in fig. 11 to 15, unlike the first embodiment, the sealing plate accommodating groove 180 is recessed from the upper surface to the lower surface of the heel from the front sole to form the unidirectional flow guide groove 120, the air tap mounting groove 190 and the air sac groove 130, when the lower surface of the sealing plate is in airtight and adhesive connection with the surface of the insole accommodating groove 150, a tesla valve 210, a second air tap mounting cavity and an air sac cavity 220 are formed between the sealing plate and the unidirectional flow guide groove 120, the air tap mounting groove 190 and the air sac groove 130, that is, the sealing plate 200 completely covers the unidirectional flow guide groove 120, the air tap mounting groove 190 and the air sac groove 130, the second air tap mounting cavity is internally provided with a unidirectional air inlet air tap 500, the air inlet direction of the unidirectional air inlet air tap 500 is the same as the air inlet direction of the tesla valve 210, and the unidirectional air inlet air tap 500 is located between the tesla valve 210 and the air sac cavity 220. The unidirectional air inlet nozzle 500 and the tesla valve 210 form a double unidirectional channel, so that the air in the air bag cavity 220 is further prevented from flowing back into the shoe, when a wearer lifts the foot or steps on the shoe during running, the air bag cavity 220 is restored or compressed to be used as power for sucking and exhausting the air in the shoe, when the air bag cavity 220 is restored, the unidirectional air outlet nozzle 400 is in a closed state, the unidirectional air inlet nozzle 500 is opened, the air in the shoe can be adsorbed during restoration of the air bag cavity 220, and therefore the air in the shoe can be unidirectional into the air bag cavity 220, when the wearer steps on the shoe, the air bag cavity 220 is compressed due to the stepping pressure of the heel, and the unidirectional air inlet nozzle 500 is closed, and the air in the air bag cavity 220 is exhausted through the unidirectional air outlet nozzle 400. The unidirectional air inlet tap 500 and the unidirectional air outlet tap 400 are opened or closed in the restoration or compression process of the air bag cavity 220, specifically, the unidirectional air outlet tap 400 is used for discharging the air in the shoe sucked by the air bag cavity 220 by stepping on the air bag cavity 220, the unidirectional air inlet tap 500 is closed under the action of the air in the air bag cavity 220 due to the structure of the unidirectional air inlet tap 500, when the foot is lifted, the air bag cavity 220 is restored, the unidirectional air inlet tap 500 is closed under the action of the air pressure outside the shoe, and the unidirectional air inlet tap 500 is opened to suck the air in the shoe. The unidirectional air outlet nozzle 400 and the unidirectional air inlet nozzle 500 adopt the unidirectional air nozzle structure disclosed in the Chinese patent No. CN 216363888U. The unidirectional air outlet nozzle 400 and the unidirectional air inlet nozzle 500 are only differences in arrangement direction, and are all structures in which the inner circular beads of the nozzle move to form a gas channel which is closed or opened to pass through the air inlet 410 and the air outlet 420 of the nozzle, thereby forming unidirectional flow channels.

Detailed description of the preferred embodiments

As shown in fig. 16 to 18, the first difference from the embodiment is that the sealing plate accommodating groove 180 is integrally formed with a gas nozzle mounting groove 190 between the gas bag groove 130 and the unidirectional flow guiding groove 120, the gas nozzle mounting groove 190 is provided with a unidirectional gas inlet nozzle 500, the unidirectional flow guiding groove 120 is not a tesla structure, but is a straight line or a curved line, the unidirectional flow guiding channel includes a sequentially through inflow channel 121 and a unidirectional gas inlet nozzle 500, and the unidirectional gas inlet nozzle 500 is connected with the gas bag cavity 220 in a penetrating manner and unidirectional flows the gas in the inflow channel 121 into the gas bag cavity 220.

Detailed description of the preferred embodiments

As shown in fig. 19 to 22, a difference from the specific embodiment is that the sole body includes a midsole 160 and an outsole 170, the upper surface of the midsole 160 is provided with an insole receiving groove 150, the insole receiving groove 150 is provided with a sink groove 110 formed by recessing from the upper surface to the lower surface thereof, the sink groove 110 extends from the front sole to the arch region, the lower surface of the insole 300 forms a sink channel 320 with the sink groove 110 when being closely and adhesively connected with the upper surface of the sole body, the sink channel 320 includes an annular channel 321 and a collecting channel 322, the annular channel 321 is distributed around the toe wall, the collecting channel 322 is distributed and arranged transversely and longitudinally in the front sole region, the collecting channel 322 is connected with the annular channel 321, the insole 300 is provided with a plurality of ventilation holes 310 penetrating the upper surface and the lower surface of the insole 300, the ventilation holes 310 are respectively communicated with the annular channel 321 and the collecting channel 322,

the lower surface of the midsole 160 is provided with a unidirectional flow guide groove 120 and an air bag groove 130 which are recessed from the lower surface to the upper surface, and a tesla valve 210 and an air bag cavity 220 are formed between the lower surface of the midsole 160 and the unidirectional flow guide groove 120 and the air bag groove 130 when the lower surface of the midsole 160 is in airtight bonding connection with the upper surface of the outsole 170. In this embodiment, since the air bag cavity 220 protrudes outside the bottom surface of the sole body, the space of the air bag cavity 220 is increased, so that the thin sole shoe can achieve a repeated cycle of air suction and discharge through the daily walking process of the wearer, the air flow circulation in the shoe is formed, the ventilation effect in the shoe is achieved, the air flow in the shoe is improved, the hot air and sweat in the shoe can be effectively discharged, the shoe is kept dry and cool, the ventilation property is enhanced, and the use comfort is improved.

Detailed description of the preferred embodiments

As shown in fig. 23 to 25, the fourth difference from the embodiment is that the lower surface of the midsole 160 is provided with a unidirectional flow guiding groove 120, an air tap mounting groove 190 and an air sac groove 130, which are formed by recessing from the lower surface to the upper surface, and when the lower surface of the midsole 160 is in airtight bonding connection with the upper surface of the outsole 170, a ventilation channel is formed between the lower surface of the midsole 160 and the flow guiding groove, the air tap mounting groove 190 and the air sac groove 130, a second air tap mounting cavity and an air sac cavity 220, a unidirectional air inlet air tap 500 is arranged in the second air tap mounting cavity, and the unidirectional flow guiding groove 120 is connected with the unidirectional air inlet air tap 500 in a penetrating manner, so that air enters the air sac cavity 220 from the front sole to the rear heel direction to form unidirectional air intake. Because tesla valve 210 is a principle of forming a small unidirectional damping force on gas, true unidirectional air intake cannot be realized, and unidirectional air intake nozzle 500 can realize unidirectional air intake and unidirectional air outlet.

Detailed description of the utility model

As shown in fig. 26 to 28, unlike the fourth embodiment, the unidirectional flow guide groove 120 is not a tesla structure, but is a straight line or a curved line, and the unidirectional flow guide channel includes an inflow channel 121 and a unidirectional air inlet nozzle 500 that sequentially penetrate, and the unidirectional air inlet nozzle 500 is connected with the air bag cavity 220 in a penetrating manner, and the air in the inflow channel 121 flows into the air bag cavity 220 in a unidirectional manner.

Fig. 29 to 30 are schematic exhaust views of the first unidirectional air outlet nozzle 400 according to the sixth to eighth embodiments, and fig. 31 to 32 are schematic exhaust views of the unidirectional air inlet nozzle 500 according to the sixth to eighth embodiments.

The embodiment is that a unidirectional exhaust channel is formed from the inside of the shoe to the outside of the shoe, and the technical scheme can also adjust the arrangement direction of each part, reverse the air flow and realize the injection of air from the outside of the shoe to the inside of the shoe. While the utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that, given such modifications and variations as fall within the scope of the appended claims and their equivalents, the utility model is intended to encompass such modifications and variations.

Claims (10)

1. The utility model provides a sole is breathed in one-way taking a breath, the upper surface of sole is equipped with the sink, its characterized in that: the sole is a sole structure or a double-sole structure consisting of a midsole and an outsole, the upper surface of the sole or the lower surface of the midsole is provided with a converging groove, a guiding groove and an air bag groove, the converging groove, the guiding groove and the air bag groove are integrally formed with the sole and are in through connection, the side wall of the sole is provided with a breathing hole which is through with the air bag groove, the breathing hole is internally provided with a one-way air tap for opening or closing the breathing hole, when the converging groove, the guiding groove and the air bag groove are closed, a converging channel, a guiding channel and an air bag cavity are formed, air in the shoe flows into the guiding channel through the converging channel, flows into the air bag cavity in a one-way, and is discharged out of the shoe through the one-way air tap.

2. A unidirectional ventilating breathing sole as claimed in claim 1, wherein: the upper surface of sole body is equipped with the shoe-pad accommodation groove, the upper surface of shoe-pad accommodation groove is equipped with the sealing fin accommodation groove, the upper surface of shoe-pad accommodation groove winds the sealing fin accommodation groove outside is equipped with the sink, after the shoe-pad was arranged in the shoe-pad accommodation groove, the shoe-pad lower surface with sink the flow channel when airtight bonding is connected with sole body upper surface, be equipped with a plurality of bleeder vent that runs through shoe-pad upper surface and lower surface on the shoe-pad, the bleeder vent link up with the flow channel, be equipped with the sealing fin on the sealing fin accommodation groove, form one-way water conservancy diversion passageway, gasbag chamber between sealing fin's lower surface and guiding gutter, the gasbag groove when airtight bonding is connected with sealing fin accommodation groove surface, one-way water conservancy diversion passageway deviates from the one end in gasbag chamber forms water conservancy diversion passageway entry.

3. A unidirectional ventilating breathing sole as claimed in claim 1, wherein: the sole body comprises a midsole and an outsole, wherein an insole containing groove is formed in the upper surface of the midsole, a converging groove is formed by sinking the upper surface of the insole containing groove towards the lower surface, the converging groove extends from the front sole to the arch area, a converging channel is formed between the lower surface of the insole and the converging groove when the lower surface of the insole is in airtight bonding connection with the upper surface of the sole body, a diversion groove and an air bag groove are formed in the lower surface of the midsole by sinking the lower surface of the insole towards the upper surface, a unidirectional diversion channel and an air bag cavity are formed between the lower surface of the midsole and the diversion groove and the air bag groove when the lower surface of the midsole is in airtight bonding connection with the upper surface of the outsole, and a diversion channel inlet is formed at one end of the unidirectional diversion channel, which is away from the air bag cavity.

4. A unidirectional ventilating breathing sole as claimed in claim 2 or 3, characterized in that: the unidirectional flow-directing channel has a tesla valve structure and extends from the bladder cavity to the corresponding forefoot and/or arch region.

5. A unidirectional ventilating breathing sole as claimed in claim 2 or claim, wherein: the one-way flow guide channel comprises a Tesla valve structure and a one-way air inlet nozzle, and the one-way air inlet nozzle is arranged between the Tesla valve structure and the air bag cavity.

6. A unidirectional ventilating breathing sole as claimed in claim 2 or 3, characterized in that: the one-way diversion channel comprises an inflow channel and a one-way air inlet nozzle which are sequentially communicated, and the one-way air inlet nozzle is communicated with the air bag cavity and is used for enabling air in the inflow channel to flow into the air bag cavity in one way.

7. A unidirectional ventilating breathing sole as claimed in claim 2 or 3, characterized in that: the collecting channels are distributed around the toe cap wall surface, the collecting channels are distributed transversely and longitudinally on the forefoot region and/or the arch region, the collecting channels are communicated with the annular channels, air holes in the insoles are respectively communicated with the annular channels and the collecting channels, air in the collecting channels enters the unidirectional flow guide channels through the flow guide channel inlets, and the air flows into the air bag cavity in a unidirectional way through the unidirectional flow guide channels.

8. A unidirectional ventilating breathing sole as claimed in claim 2, wherein: the lower surface of the sole body is provided with an arc surface bulge structure at the position of the air bag cavity, and the sealing piece is provided with an arc surface bulge structure at the position of the air bag cavity.

9. A unidirectional ventilating breathing sole as claimed in claim 1, wherein: the air bag cavity is internally provided with a supporting structure or a supporting accessory.

10. A shoe comprising a unidirectional ventilating sole as claimed in any one of claims 1 to 9, the upper being secured to a top edge of the unidirectional ventilating sole to form a cavity for receiving a foot.