CN221044370U - Split type exhaust sole - Google Patents

Abstract

The utility model discloses a split type exhaust sole, which comprises an outsole and an insole which are arranged in a split mode, wherein the insole is detachably nested in the outsole, an exhaust structure is arranged on the contact surface of the insole and the outsole, the exhaust structure comprises an air bin, an air inlet channel and an air outlet channel which are communicated with the air bin, an air inlet hole communicated with air in a shoe is formed at one end of the air inlet channel, which is far away from the air bin, and an air outlet hole communicated with the outside air is formed at one end of the air outlet channel, which is far away from the air bin. The sole is divided into the outsole and the insole, and the exhaust structure is arranged at the inner sole, so that the insole can be conveniently replaced, and the air bin, the air inlet channel, the air outlet channel, the air inlet hole and the air outlet hole are arranged, so that the shoe can achieve the repeated air suction and exhaust process through the daily walking process of a wearer, 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 are effectively discharged, the shoe is kept dry and cool, the ventilation property is enhanced, and the use comfort is improved.

Description

Split type exhaust sole

Technical Field

The utility model relates to the technical field of shoemaking, in particular to an exhaust sole.

Background

Because the ventilation in the shoes is not smooth, the sweats of the feet are aggravated, the feet are in a moist environment for a long time, and particularly for people with sweaty feet, the feet are smelly and the foot diseases are easy to be caused. The prior ventilated shoes are generally provided with ventilation holes on soles, and films with water blocking and ventilation functions are arranged at the ventilation holes, thereby achieving the purpose of radiating hot air. However, the breathable shoes only can dissipate heat, the breathable effect is not obvious, the breathable shoes are only suitable for indoor or clean environment wearing because the sole ventilation holes are easy to be blocked by dirt, and are not beneficial to people to work and live in normal times, so that the breathable shoes are breathable, an elastic air bag is arranged at the heel of each sole, a one-way air inlet valve and an air inlet pipe are arranged at the front end of each elastic air bag, an opening at one end of each air inlet pipe is arranged at the sole, an opening at the other end of each air inlet pipe is communicated with the inner cavity of the elastic air bag, a one-way air outlet valve is arranged at the rear end or the side end of each elastic air bag, the sole is provided with a mounting hole, one-way air outlet valve is arranged at the mounting hole, one end of each one-way air outlet valve is communicated with the outside of the shoe body, the other end of each one-way air outlet valve is communicated with the inner cavity of the elastic air bag, and ventilation is realized in the shoe body through the matching action of the elastic air bag and the air inlet pipe, and the ventilation shoes are breathable because the traditional one-way air outlet valve is required to be provided with a movable part, the conventional one-way air outlet valve is opened and closed through the inner arrangement of a movable part, the conventional ventilation shoes perform one-time ventilation, the one-way air valve is high in operation frequency, the one-way valve is used, and the running valve is easy to bear high load and the movable part is easy to be aged in running and have high frequency; the sole and ground contact produce the raise dust, and unavoidable a small amount of dust, moisture enter into the check valve in, and the check valve inner space is narrow and small, and the card of moving part can take place for the dust of minute quantity to get into and die, and then lead to the check valve inefficacy, and the intake pipe is oppressed easily after wearing a period moreover, leads to the intake pipe to be blocked, can not advance air.

Disclosure of utility model

The utility model aims to provide a split type exhaust sole for solving the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a split type exhaust sole, the sole includes the outsole and the inner bottom that the components of a whole that can function independently set up, the inner bottom can be dismantled and nest in the outsole is inside, the contact surface of inner bottom and outsole is provided with exhaust structure, exhaust structure includes the gas storehouse and with the intake duct and the air outlet channel of gas storehouse intercommunication, the gas storehouse sets up in corresponding heel position, the one end that the intake duct deviates from the gas storehouse forms the inlet port that switches on with shoes internal air, the one end that the air outlet channel deviates from the gas storehouse forms the venthole that switches on with external air.

Further, a containing cavity is formed in the outer bottom, and the inner bottom is detachably nested in the containing cavity.

Further, the lower surface of the inner bottom is recessed upwards to form an air bin groove, an air inlet channel groove and an air outlet channel groove, and when the inner bottom is connected with the outer bottom in a nested mode, the air bin groove, the air inlet channel groove and the air outlet channel groove form an air bin, an air inlet channel and an air outlet channel with the lower surface of the outer bottom.

Further, the air outlet channel is a one-way air outlet channel, the one-way air outlet channel is of a Tesla valve structure, and the direction from the air outlet hole to the air bin is a high-resistance direction.

Further, the air outlet holes penetrate through the outsole along the air outlet direction.

Further, the air outlet channel extends rearward along the air bin to a corresponding heel edge at the rear of the sole.

Further, the air outlet holes are arranged between the outer sole and the inner sole along the direction of the air outlet channel.

Further, the gas outlet channel extends along one side of the gas cartridge to the inner bottom side wall.

Further, the part of the air outlet channel exposed out of the side wall of the inner bottom forms a visual air outlet channel.

Further, the air outlet holes are arranged on the side wall of the inner bottom along the direction of the air outlet channel

Furthermore, the air inlet channel is a one-way air inlet channel, the one-way air inlet channel is of a Tesla valve structure, and the direction from the air inlet hole to the air bin is a low-resistance direction.

Further, the air inlet channel comprises an air inlet channel and an air guide channel, the air inlet channel is arranged at the corresponding sole position, the air inlet hole is formed in the air inlet channel, and the air guide channel is connected with the air inlet channel to the air bin position.

Further, the air inlet channel comprises a plurality of air inlet channels which are divergently distributed along the tail end of the air guide channel.

Further, the gas bin is of a dome structure which gradually deepens inwards from the outer edge to the middle part.

Compared with the prior art, the utility model has the beneficial effects that: the sole is divided into the outsole and the insole, and the exhaust structure is arranged at the inner bottom, so that the insole can be conveniently replaced, and the air bin, the air inlet channel, the air outlet channel, the air inlet hole and the air outlet hole are arranged, so that the shoe can achieve the repeated air suction and exhaust process through the daily walking process of a wearer, 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 discharged, the shoe is kept dry and cool, the air permeability is enhanced, and the use comfort is improved.

Drawings

FIG. 1 is a schematic illustration of an embodiment of a split exhaust sole structure according to the present utility model;

FIG. 2 is a schematic diagram of an embodiment of an integrated vapor-permeable sole assembly structure according to the present utility model;

FIG. 3 is a schematic view of the insole construction of an integrated vapor-permeable sole in accordance with an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a rear view of an embodiment of the present utility model;

FIG. 5 is a schematic illustration of a split exhaust sole structure according to an embodiment of the present utility model;

FIG. 6 is a schematic illustration of one of the insole construction of a split exhaust sole according to an embodiment of the present utility model;

FIG. 7 is a schematic diagram of a second insole construction in a split exhaust sole according to an embodiment of the present utility model;

FIG. 8 is a schematic diagram of a rear view of a split exhaust sole according to an embodiment of the present utility model;

FIG. 9 is a schematic view of a three-part exhaust sole structure according to an embodiment of the present utility model;

FIG. 10 is a schematic view of the insole construction in a three-piece exhaust sole according to an embodiment of the present utility model;

In the figure, the air inlet device comprises a 100-outsole, a 101-accommodating cavity, a 200-insole, a 1-air bin, a 2-air inlet channel, a 21-air inlet channel, a 22-air guide channel, a 3-air outlet channel, a 4-air inlet hole and a 5-air outlet hole.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

First embodiment:

As shown in fig. 1 to 4, this embodiment provides a split-type exhaust sole, the sole includes an outsole 100 and an insole 200 that are separately disposed, an accommodating cavity 101 is disposed on the outsole 100, the insole 200 is detachably nested in the accommodating cavity 101, a contact surface between the insole 200 and the outsole 100 is provided with an exhaust structure, the exhaust structure includes a gas bin 1, and an air inlet 2 and an air outlet 3 that are communicated with the gas bin 1, in this embodiment, a lower surface of the insole 200 is recessed upward to form a gas bin groove, an air inlet groove and an air outlet channel groove, when the insole 200 is nested with the outsole 100, the gas bin groove, the air inlet groove and the air outlet channel groove form a gas bin 1, an air inlet 2 and an air outlet channel 3 with a lower surface of the outsole, the insole 200 and the outsole 100 can be adhered by gluing, and are connected more stably, when the insole 200 needs to be replaced, the gas bin 1 is disposed at a corresponding heel position, one end of the air outlet channel 2 is formed with an air inlet hole 4 communicated with air in the shoe, one end of the air outlet channel 3 is formed with an air outlet 5 which is communicated with the air inlet dome 1, and the air inlet channel 3 is gradually deepened from the middle of the outer dome 1 to the outer side of the outer sole; the outsole 100 is made of TPU expanded particles, the TPU expanded particles have small density, good wear resistance, low hardness, good rebound resilience, high tensile strength and good tear resistance, so that the whole sole is light in weight, good in elasticity and good in buffering performance, the shock absorption performance of the sole is improved, the insole 200 can be made of TPU expanded particles, EVA (ethylene-vinyl acetate) expanded materials can be used as the sole, the rebound resilience and tension resistance of the sole are high, the toughness is high, the insole is harder than the TPU materials, the air bin groove, the air inlet channel groove and the air outlet channel groove on the lower surface of the insole 200 are not easy to deform, the outsole can be adhered to the bottom of the outsole 100, and the outsole is made of rubber materials, so that the outsole has good anti-skid and wear-resistant effects;

The air inlet channel 2 comprises an air inlet channel 21 and an air guide channel 22, the air inlet channel 21 is arranged at a corresponding sole position, the air inlet channel 21 is provided with the air inlet holes 4, the air inlet holes 4 penetrate through the inner bottom 200, the air inlet channel 21 is a plurality of air inlet channels which are divergently distributed along the tail end of the air guide channel 22, the air guide channel 22 is connected with the air inlet channel 21 to the position of the air bin 1, the air guide channel 22 extends forwards to a corresponding sole area along the air bin groove, the air inlet channel 2 is a one-way air inlet channel, the one-way air inlet channel is of a Tesla valve structure, and the direction from the air inlet holes 4 to the air bin 1 is a low-resistance direction;

The air outlet channel 3 extends backwards to the heel edge corresponding to the rear part of the insole 100 along the air bin groove, the air outlet hole 5 penetrates through the outsole 100 along the air outlet direction, the air outlet channel 3 is a one-way air outlet channel, the one-way air outlet channel is of a Tesla valve structure, and the direction from the air outlet hole 5 to the air bin 1 is a high resistance direction.

When the shoe is assembled, the insole 200 is nested in the accommodating cavity 101 of the outsole 100, when a wearer steps on a foot, the air bin 1 is compressed due to the stepping force of the outsole 200, air flow is difficult to enter the air inlet channel 2 through the air inlet hole 4 due to the uniqueness of Tesla, therefore, the air flow blown out of the air outlet hole 5 is blown out of the shoe through the air outlet channel 3, and is correspondingly discharged, when the foot is lifted, the air bin 1 is restored, because of the uniqueness of Tesla, external air is difficult to enter from the air outlet channel 3, therefore, the air in the shoe is sucked into the air bin 1 through the air inlet hole 4, when the lifted sole contacts the ground again, the air bin 1 is extruded again, the air flow is blown out of the air outlet hole 5 through the air outlet channel 3, and the air flow blown out of the air outlet hole 5 is discharged out of the shoe, so that one-way air inlet and one-way air exhaust is realized, and one-way air exhaust is circulated in sequence, when the insole 200 needs to be replaced, the air exhaust effect of an exhaust structure is ensured by tearing.

Specific embodiment II:

As shown in fig. 5 to 8, this embodiment has the same outsole 100 and insole 200 as the first embodiment, the upper surface of the outsole 100 is provided with a receiving cavity 101, the side wall is provided with a concave position, the insole 200 is detachably nested on the receiving cavity 101, the side part of the insole 200 extends downwards to cover and is nested on the concave position, the side part of the insole 200 can be provided with a decoration, the contact surface between the insole 200 and the outsole 100 is provided with a vent structure, the vent structure has the same air bin 1, air inlet channel 2, air outlet channel 3, air inlet hole 4 and air outlet hole 5 as the first embodiment, the difference is that the air outlet channel 3 extends backwards along the air bin 1 to the rear part of the insole 200 corresponding to the heel edge and then continues upwards, and because the lower surface of the insole 200 is upwards concave to form a vent channel groove, thus, when the insole 200 is nested on the outsole 100, the vent hole 5 is located between the outsole 100 and the insole 200 along the direction of the vent channel 3, and the vent principle of the assembly and walking process between the outsole 100 and the insole 200 is the same as the first embodiment.

Third embodiment:

As shown in fig. 9 to 10, in this embodiment, the same outsole 100 and insole 200 are provided in the second embodiment, the contact surface between the insole 200 and the outsole 100 is provided with an exhaust structure, which has the same air chamber 1, air inlet channel 2, air outlet channel 3, air inlet hole 4 and air outlet hole 5 as in the second embodiment, unlike in the second embodiment, the air outlet channel 3 extends to the sidewall of the insole 200 along one side of the air chamber 1, the air outlet hole 5 is disposed on the sidewall of the insole 200 along the direction of the air outlet channel 3, and can be adhered to the sidewall of the insole 200 through a transparent strip, so that the portion of the air outlet channel 3 exposed to the sidewall of the insole 200 forms a visual air outlet channel, and because the lower surface of the insole 200 is recessed upwards to form an air outlet channel groove, when the transparent strip is adhered to the insole 200, the end of the air outlet channel groove and the transparent strip form an air outlet hole 5, through the visual air outlet channel, a user can feel the air outlet process of the shoe, thereby improving the user experience, and facilitating the product popularization, the assembly and walking process between the insole 100 and the insole 200 are the same as in the first embodiment or the second embodiment.

The sole is divided into the outsole and the insole, and the exhaust structure is arranged at the inner bottom, so that the insole can be conveniently replaced, and the air bin, the air inlet channel, the air outlet channel, the air inlet hole and the air outlet hole are arranged, so that the shoe can achieve the repeated air suction and exhaust process through the daily walking process of a wearer, 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 discharged, the shoe is kept dry and cool, the air permeability is enhanced, and the use comfort is improved.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (12)

1. A split type exhaust sole, its characterized in that: the sole comprises an outsole and an insole which are arranged in a split mode, the insole is detachably nested in the outsole, an accommodating cavity is formed in the outsole, the insole is detachably nested in the accommodating cavity, an exhaust structure is arranged on the contact surface of the insole and the outsole, the exhaust structure comprises an air bin, an air inlet channel and an air outlet channel which are communicated with the air bin, the air bin is arranged at a position corresponding to a heel, an air inlet hole which is communicated with air in the shoe is formed at one end of the air inlet channel, which is away from the air bin, and an air outlet hole which is communicated with the outside air is formed at one end of the air outlet channel, which is away from the air bin.

2. The split exhaust sole of claim 1, wherein: the lower surface of the inner bottom is recessed upwards to form an air bin groove, an air inlet channel groove and an air outlet channel groove, and when the inner bottom is connected with the outer bottom in a nested mode, the air bin groove, the air inlet channel groove and the air outlet channel groove form an air bin, an air inlet channel and an air outlet channel with the lower surface of the outer bottom.

3. The split exhaust sole of claim 1, wherein: the air outlet channel is a one-way air outlet channel, the one-way air outlet channel is of a Tesla valve structure, and the direction from the air outlet hole to the air bin is a high-resistance direction.

4. A split exhaust sole according to claim 1 or 3, wherein: the air outlet holes penetrate through the outsole along the air outlet direction.

5. A split exhaust sole according to claim 1 or 3, wherein: the air outlet channel extends backwards along the air bin to the corresponding heel edge at the rear of the insole.

6. The split exhaust sole of claim 5, wherein: the air outlet holes are arranged between the outer sole and the inner sole along the direction of the air outlet channel.

7. A split exhaust sole according to claim 3, wherein: the air outlet channel extends along one side of the air bin to the inner bottom side wall.

8. The split exhaust sole of claim 7, wherein: the part of the air outlet channel exposed out of the side wall of the inner bottom forms a visual air outlet channel.

9. The split exhaust sole according to claim 7 or 8, characterized in that: the air outlet holes are arranged on the side wall of the inner bottom along the direction of the air outlet channel.

10. The split exhaust sole of claim 1, wherein: the air inlet channel is a one-way air inlet channel, the one-way air inlet channel is of a Tesla valve structure, and the direction from the air inlet hole to the air bin is a low-resistance direction.

11. A split exhaust sole according to claim 1 or 10, wherein: the air inlet channel comprises an air inlet channel and an air guide channel, the air inlet channel is arranged at a corresponding sole position, the air inlet channel is provided with the air inlet hole, and the air guide channel is connected with the air inlet channel to the air bin position.

12. The split exhaust sole of claim 11, wherein: the air inlet channel comprises a plurality of air inlet channels which are divergently distributed along the tail end of the air guide channel.