JPH09201209A - Shoes which may be ventilated during walking - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently ventilate shoes with pumping chambers without degrading the performance as shows with a simple structure and to prevent check valves from making shoes design inferior, thereby preventing the degradation of the design. SOLUTION: Ground contact shoe soles 1 are molded with plastic and heel parts 1A are partly delineated with peripheral walls 8. The inside volume of the pumping chambers 2 is made smaller with the simple structure. The peripheral walls 8 delineating the pumping chambers 2 are integrally molded at the ground contact soles 2 as the shapes opened upward and closed at the circumferences. The apertures at the upper surfaces of the peripheral walls 8 are hermetically closed by hermetic caps to be elastically deformed, by which the pumping chambers 2 are constituted. The pumping chambers 2 are communicated with the outside of the shoes via the check valves 5.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shoe capable of forcibly ventilating outside air by elastically deforming the grounding bottom when stepping on the grounding bottom with a foot while walking.

[0002]

2. Description of the Related Art Shoes that cannot ventilate the air inside have the drawback that they tend to get damp. In order to overcome this drawback, shoes having a pump chamber on the ground floor have been developed. This type of shoe elastically deforms the pump chamber when walking to change the inner volume of the pump chamber. Since the pump chamber is connected to the inside and outside of the shoe via the check valve, air is taken in when the inner volume of the pump chamber becomes large, and air taken in when the inner volume becomes small. Exhaust. In order for the pump chamber to forcibly ventilate the air, the pump chamber is connected to the outside and inside of the shoe via a check valve. The check valve is reversely connected to the pump chamber. The pump chamber compulsorily exhausts air from the inside of the shoe or compulsorily draws outside air into the inside of the shoe. Which structure is used is determined by the direction in which the check valve is connected.

[0003] As described above, shoes that are provided with a pump chamber that is elastically deformed on the grounded bottom for ventilation, in order to ventilate efficiently,
It is necessary to hermetically close the pump chamber to prevent air leakage. This is because if air leaks, it will not be possible to efficiently inhale or exhaust it. In order to hermetically close the pump chamber, shoes having an airtight bag built into the grounding bottom have been developed.
A shoe having this structure is described in, for example, the following publication. JP-A-4-240401 JP-A-7-23802 JP JP-A-6-50504 JP

In the shoe of this structure, a pump chamber without air leakage can be provided on the grounded bottom. However, since the airtight bag is manufactured separately from the grounded bottom, the cost of parts is increased. Also, since the airtight bag is set at a fixed position on the grounding bottom,
There is also a drawback that it takes time to manufacture.

In order to prevent such adverse effects of shoes, shoes having an airtight pump chamber provided on the grounded bottom have been developed. A shoe having this structure is described in the following publication. Japanese Utility Model No. 2-2004 Japanese Utility Model No. 2-143005 Japanese Utility Model No. 5-7924 Japanese Utility Model No. 6-44403 Japanese Patent Application No.

[0006]

In the shoes described in these publications, as shown in the sectional view of FIG. 1, a pump chamber 2 is provided in a heel portion 1A of a grounded sole 1. Ground floor 1 to pump chamber 2
Therefore, the airtight pump chamber 2 can be provided without incorporating an airtight bag. Therefore, there is a feature that mass production is possible at low cost. However, shoes with this structure
It is difficult to ventilate a large amount of air when walking, and it is difficult to eliminate stuffiness and make it comfortable to wear. In order to increase the ventilation volume, it is necessary to design so that the pump chamber 2 is largely deformed when stepped on with a foot.

In the shoe shown in FIG. 1, in order to increase the deformation of the pump chamber 2, the pump chamber 2 is provided with an airtight lid 4 which penetrates the insole 3.
Is closed. If the airtight lid 4 is made of a flexible material that is elastically deformed, the airtight lid 4 is crushed when stepped on by a foot, and the pump chamber 2
The volume of can be changed. In the shoe having this structure, the change in the internal volume of the pump chamber 2 can be increased as compared with the structure in which the pump chamber 2 is deformed by the insole 3. However, in order to greatly deform the inner volume of the pump chamber 2, the large through hole 3 is formed in the insole 3.
It is necessary to provide A to allow the large airtight lid 4 to project from this, or to flexibly design the grounding bottom 1 so that it can be elastically deformed. However, shoes designed in this way
There is an adverse effect that the performance as shoes decreases. This is because the heel is heavy when walking, so if you make it flexible, you will not be able to walk stably.

Further, shoes having a pump chamber on the grounded sole are
It is necessary to connect a check valve around the grounded bottom 1. If the check valve is noticeable, the appearance of the shoe will be poor, so it is necessary to connect the check valve so that it is not noticeable. There are various types of check valves, but it is desirable that they can operate reliably and can be manufactured at low cost. As the simplest check valve that realizes this, the present inventor has developed a valve having a structure shown in FIG.
The check valve 5 in this figure is a flexible hose 6 provided with a vertical slit 7. This check valve 5 allows air to pass only in the direction indicated by arrow A in the figure. This is because when the air passes in this direction, the vertical slit 7 opens as shown by the chain line. When air tries to pass in the opposite direction, pressure acts in the direction of closing the vertical slit 7 and air cannot pass. The check valve 5 of this structure is the simplest and cheapest to manufacture. However, if this check valve is used for the exhaust valve of the pump chamber, it cannot be connected to the inside of the grounding bottom, and thus there is a drawback that it projects outside the grounding bottom and the design becomes poor.

The present invention was developed for the purpose of solving this drawback. An important object of the present invention is to provide a shoe which has a simple structure and which can be efficiently ventilated from a pump room when the user walks, without deteriorating the performance of the shoe. Another important object of the present invention is to arrange a check valve having a simple structure so as not to project from the ground bottom so that the check valve can ventilate when walking without deteriorating the design of the ground bottom. To provide shoes.

[0010]

A walking and ventilating shoe according to the present invention comprises a grounded bottom 1 having a pump chamber 2 whose inside volume is deformed by being stepped on by a foot when walking. The pump chamber 2 is connected to the outside and the inside of the shoe via a check valve 5. When the grounded bottom 1 is stepped on by a foot and deformed, the inner volume of the pump chamber 2 becomes smaller and air is pushed out. When the stepping force of the foot decreases, the pump chamber 2 elastically restores and sucks air. The pump chamber 2 inhales and exhausts air to forcibly ventilate the inside of the shoe.

Further, the walkable and ventilated shoe of the present invention is
The grounding bottom 1 is formed of plastic, and a part of the heel portion 1A is partitioned by the peripheral wall 8 to provide a pump chamber 2 smaller than the inner shape of the heel portion 1A. The peripheral wall 8 is integrally formed with the ground contact bottom 1 in a shape that opens upward and closes the periphery. An upper surface opening of the peripheral wall 8 is airtightly closed by an elastically deformable airtight lid 4 to form a pump chamber 2. The pump chamber 2 communicates with the outside and the inside of the shoe via a check valve 5. The airtight lid 4 that closes the peripheral wall 8 is preferably
As shown in FIG. 8, the through hole 3 </ b> A of the insole 3 is formed to be a member separate from the insole 3.

Further, in the shoe capable of ventilating when walking according to the second aspect, a part of the heel portion 1A is partitioned by the peripheral wall 8 which is elastically deformed, and the upper opening of the peripheral wall 8 is airtightly closed by the airtight lid 4. The pump chamber 2 is configured as described above.

Further, the shoe which can be ventilated by walking according to claim 3 of the present invention has a check valve 5 and a vertical slit 7 on the surface.
Use a flexible hose 6 that has elasticity. When air passes from the inside to the outside of the hose 6, the vertical slit 7 opens,
The vertical slit 7 is configured to be closed when air passes from the outside to the inside of the hose 6. The check valve 5 having this structure can be arranged between the peripheral wall 8 and the outer surface of the ground contact bottom 1.

[0014]

Embodiments of the present invention will be described below with reference to the drawings. However, the embodiments described below exemplify shoes that can be ventilated by walking for embodying the technical idea of the present invention, and the present invention does not specify the shoes to the following.

Further, in this specification, in order to make it easy to understand the claims, the numbers corresponding to the members shown in the embodiments will be referred to as “claims” and “ In the column of “means”. However, the members described in the claims are not limited to the members of the embodiments.

The walking shoes shown in FIGS. 3 and 4 can be
The upper 9 is fixed to the plastic grounding bottom 1. The grounding bottom 1 is formed with a thick heel 1A, and a pump chamber 2 is provided by partitioning a part of the heel 1A with a peripheral wall 8. The pump chamber 2 is smaller than the outer wall of the heel portion 1A and is formed inside thereof in order to efficiently ventilate the air. The grounding bottom 1 shown in FIG. 5 is integrally formed with a cylindrical peripheral wall 8 separated from the outer wall of the heel portion 1A inward.

The internal volume of the pump chamber 2 surrounded by the peripheral wall 8 is
If the peripheral wall 8 is cylindrical and has the same height as shown in the figure, the peripheral wall 8 increases in proportion to the square of the inner diameter of the peripheral wall 8. Peripheral wall 8
If the inner diameter of the pump is half the inner diameter of the outer wall of the heel, the pump chamber 2
The inner volume of is as small as 1/4. Ground bottom 1 shown in FIG.
Has the inner diameter of the peripheral wall 8 approximately 0.6 times that of the outer wall. Therefore, the inner volume of the pump chamber 2 surrounded by the peripheral wall 8 is 0.36 times the inner volume surrounded by the outer wall. Furthermore, since the outer wall of the grounded bottom 1 shown in the figure is not cylindrical, in reality,
The inner volume of the pump chamber 2 defined by the peripheral wall 8 inside the outer wall is smaller than 0.36 times the inner volume of the outer wall, and is 1/3 or less of the inner volume formed inside the outer wall.

The grounding bottom 1 shown in the figure has a peripheral wall 8 formed into a cylindrical shape. However, the peripheral wall 8 does not necessarily have to be formed into a cylindrical shape. For example, although not shown, the peripheral wall may have a polygonal tubular shape or an elliptic tubular shape. The peripheral wall 8 is airtightly closed by closing the upper surface with the airtight lid 4. The lower end of the peripheral wall 8 is connected to the bottom of the grounded bottom 1, and the upper surface is formed in a flat shape so that the airtight lid 4 can close it airtightly. The grounding bottom 1 of FIG. 5 is integrally formed with ribs so that the peripheral wall 8 is not deformed. The rib connects the outer side of the peripheral wall 8 to the outer wall to reinforce it.

The peripheral wall 8 is provided with two through holes 15 for connecting the check valve 5. In FIG. 5, the through hole 15 provided in the upper part of the peripheral wall 8 is connected to the inside of the ground bottom 1. The through hole 15 provided on the left side of the peripheral wall 8 is connected to the outside of the ground bottom 1. The check valve 5 connected to the through hole 15 connected to the inside of the grounded bottom 1 allows the air on the lower surface of the middle bottom 3 to be sucked into the pump chamber 2. No air is passed in the opposite direction. The check valve 5 connected to the through hole 15 connected to the outside of the ground bottom 1 allows air to pass only from the pump chamber 2 to the outside of the ground bottom 1. Check valve 5 connected in this way
When the inner volume of the pump chamber 2 is changed, the air is sucked from the lower surface of the insole 3 and ventilated to the outside of the grounded bottom 1.

Shoes for ventilating by flowing air in this direction are
The outside air is taken in through the opening of the upper 9 and exhausted to the outside from the lower surface of the insole 3. In the shoe in which the air flows in this way, the outside air is sucked through the opening portion of the upper 9, so that the air has a characteristic that the air is entirely flowed into the shoe. In addition, the insole 3 is the most stuffy
The feature is that the moist air on the bottom of the can be efficiently discharged.
However, the shoe of the present invention can also supply the outside air from the pump chamber 2 to the lower surface of the insole 3 and exhaust the air inside the shoe from the opening of the upper 9 in the opposite direction. A shoe that allows air to flow in this direction can supply the outside air having a low humidity to the bottom surface of the insole 3 that is the most wet.

A check valve 5 connected to the peripheral wall 8 of the pump chamber 2 is shown in FIG. In this figure, two check valves 5 having air flowing in opposite directions are connected to both ends of one hose 6. The check valve 5 is a flexible hose 6 having a vertical slit 7. The hose 6 shown in the figure has the left end and the central portion airtightly closed by a method such as welding or bonding, and the end closing portion 10,
The central block 11 is formed. The right end of the hose 6 is open. The hose 6 has a check valve 5 on both sides of the central block 11.
Is provided. In order to provide the two check valves 5 on one hose 6, an opening 12 is provided on the left side of the central closing portion 11, and a vertical slit 7 is provided further on the left side of the opening 12. Further, a vertical slit 7 is also provided on the right side of the central closing portion 11 to form the check valve 5. The vertical slit 7 is shown in FIG.
As indicated by the arrow A, the air can be passed only from the inside to the outside of the hose 6. This hose 6 is shown in FIG.
As shown in, the central portion is curved in an L shape, and both end portions are inserted into two through holes 15 provided in the peripheral wall 8. The hose 6 is hermetically inserted into the through hole 15 of the peripheral wall 8 that defines the pump chamber 2 with or without adhesion. Hose 6
The peripheral wall 8 of the pump chamber 2 is located between the opening 12 and the vertical slit 7 at the left end, and the vertical slit 7 on the right side of the central closing portion 11 is provided.
It is inserted so that it may be located between and a right end opening part.

The upper end of the peripheral wall 8 is airtightly closed by the airtight lid 4. The airtight lid 4 is preferably adhered to the upper surface of the peripheral wall 8. However, the airtight lid 4 does not necessarily have to be adhered. This is because it is possible to press the upper surface of the peripheral wall 8 with the insole 3 to close the airtightly. Airtight lid 4, peripheral wall 8 and grounding bottom 1
The portion surrounded by and the bottom of the pump chamber is the pump chamber 2. Airtight lid 4
As shown in the sectional view of FIG. 8, a convex portion 4A is provided in the center and the convex portion 4A is projected from the central hole of the insole 3 to the upper surface. When the convex portion 4A is made large and high, the change in the internal volume of the pump chamber 2 becomes large when walking. This is because the deformation of the convex portion 4A increases. The convex portion 4A is designed to be flush with the upper surface of the insole 3 or to have a height protruding from the upper surface of the insole 3 by about 3 mm. The area of protrusion is designed to be ¹ to 4 cm ² .

In the shoe shown in the figure, the airtight lid 4 is made of a part different from the insole 3. With this structure, the airtight lid 4 can be made of flexible plastic or rubber. Therefore, the airtight lid 4 can be easily deformed, and the amount of ventilation air can be increased. Insole 3
Since it does not need to be deformed like the airtight lid 4, it can be made of a harder plastic than the airtight lid 4 and made to be comfortable to wear. However, the airtight lid 4 and the insole 3 can be integrally formed of plastic. The insole integrally forming the airtight lid is made of elastically deformable soft plastic.
This insole is bonded or pressed to the upper surface of the peripheral wall,
Airtightly closes and closes the upper surface of the peripheral wall. The shoe in which the airtight lid is integrally formed on the insole can simplify the entire structure and reduce the manufacturing cost.

Furthermore, the walkable and ventilated shoe of the present invention is
As shown in FIG. 9, the pump chamber 2 can be provided by partitioning a part of the heel portion 1A with a peripheral wall 8 that elastically deforms. The peripheral wall 8 shown in this figure is formed of soft plastic so as to be elastically deformable. The peripheral wall 8 that elastically deforms is formed by being curved inward of the pump chamber 2 as shown in FIG. This is because the peripheral wall 8 can be easily deformed inward of the pump chamber 2. The upper surface of the peripheral wall 8 is closed by the airtight lid 4. The airtight lid 4 is adhered or pressed to be hermetically closed. Since the airtight lid 4 does not need to be deformed, it can be made of hard plastic. However, the airtight lid can also be made of elastically deformable soft plastic. In the shoe shown in the figure, the airtight lid 4 is manufactured by a separate part from the insole 3, but the airtight lid 4 and the insole 3 may be integrally formed of plastic. The insole that integrally molds the airtight lid is adhered or pressed to the upper surface of the peripheral wall to adhere airtightly,
Close the upper surface of the peripheral wall.

In the pump chamber 2 having the structure shown in the figure, when the airtight lid 4 is stepped on with a foot, the airtight lid 4 moves in the direction indicated by the arrow B in (1) of the figure. The peripheral wall 8 is elastically deformed in the direction indicated by the arrow C in (2) to reduce the internal volume of the pump chamber 2. At this time, the portion of the peripheral wall 8 that connects the hose 6 moves inward of the pump chamber 2 as the peripheral wall 8 deforms. Therefore, the hose 6 is elastic. This is because the hose 6 maintains a state of being hermetically connected to the peripheral wall 8 and the partition wall 16. Although not shown, the hose can be arranged outside the peripheral wall and in a space between the hose and the partition in a loosened state. In the hose arranged in this state, even if the peripheral wall is deformed inward of the pump chamber, the slackened hose is linearly deformed, and the hose can be kept airtightly connected to the peripheral wall and the partition wall. When the foot does not step on the airtight lid 4 or the stepping force decreases, the peripheral wall 8 restores by the elastic force and pushes the airtight lid 4 upward, and the internal volume of the pump chamber 2 increases.

In the shoe in which the peripheral wall 8 is elastically deformed, the entire airtight lid 4 moves up and down. The movement distance of the airtight lid 4 is the same as that of the pump chamber 2
Changes in height. Therefore, the pump chamber 2 can largely change its internal volume by moving the entire airtight lid 4 on the upper surface. Further, the peripheral wall 8 has a structure that elastically deforms inward of the pump chamber 2. The peripheral wall 8 that is elastically deformed inward is provided with a pump chamber 2 in the central portion.
Reduce the cross-sectional area of. Therefore, the internal volume of the pump chamber 2 can be made smaller. That is, in the pump chamber 2, the movement of the entire airtight lid 4 and the elastic deformation of the peripheral wall 8 inward synergistically synergize with each other to further increase the change in the internal volume.

The grounding bottom 1 has ribs integrally formed on the lower surface of the insole 3 in a lattice shape, is floated from the bottom surface of the insole 3, and has an air chamber 13 below it. As shown in FIG. 7, the insole 3
Has a plurality of ventilation holes 14 to allow air to pass up and down.
Is provided.

In the shoe shown in the above figures, the inner volume of the pump chamber 2 is changed and ventilation is performed as follows. When the inner volume of the pump chamber 2 is reduced by stepping on the airtight lid 4 with a foot, in this state, the pressure in the pump chamber 2 increases and
In, the air in the pump chamber 2 flows into the hose 6 through the opening 12 provided on the left side of the central closed portion 11 of the hose 6, and the air in the hose 6 is a vertical slit provided at the left end of the hose 6. It is exhausted to the outside from 7. Therefore, when the inner volume of the pump chamber 2 becomes small, the air in the pump chamber 2 is exhausted to the outside of the grounded bottom 1. At this time, the central block 1
Vertical slit 7 which is a check valve 5 provided above 1
Does not open. This is because the vertical slit 7 is brought into close contact with the pressure of the pump chamber 2.

When the foot does not step on the airtight lid 4 or the stepping force decreases and the airtight lid 4 is restored and the inner volume of the pump chamber 2 increases, when the inner volume of the pump chamber 2 increases, the pump chamber 2 The pressure will be low. Therefore, the vertical slit 7 provided above the central closed portion 11 opens, and the air on the lower surface of the insole 3 is sucked into the pump chamber 2 from the upper end of the hose 6. At this time, the vertical slit 7 provided at the left end of the hose 6 is not opened. Vertical slit 7
This is because pressure acts in the direction of closing the.

As described above, when the inner volume of the pump chamber 2 becomes large, the pressure is reduced and the air on the lower surface of the inner bottom 3 is removed.
When the inner volume of the pump chamber 2 becomes smaller, the air is pressurized and the air in the pump chamber 2 is exhausted. Therefore, when the airtight lid 4 is stepped on by the foot when walking, the internal volume of the pump chamber 2 changes and the air in the shoe is ventilated.

[0031]

EFFECTS OF THE INVENTION The walkable shoe according to the present invention has an extremely simple structure and has a feature that the ventilation amount of the pump chamber can be increased. It consists of a peripheral wall integrally formed on the heel of the grounded bottom, and the peripheral wall divides the heel into a pump chamber that is smaller than the inner shape of the heel. This is because it is airtightly closed. The pump chamber divided into small parts by the peripheral wall has a small total internal volume. A small pump chamber has a large ventilation volume even if the deformation amount of the airtight lid, which is deformed by being stepped on by a foot, does not change. Even if the deformation amount of the airtight lid is the same, if the inner volume of the pump chamber is small, the ratio of the changed inner volume of the airtight lid to the total inner volume becomes large,
This is because when the airtight lid is pushed and the inner volume of the pump chamber becomes small, the internal pressure becomes considerably high, and when the airtight lid is not stepped on and the inner volume of the pump chamber expands, the pressure is greatly reduced. . Particularly, the shoe of the present invention does not increase the amount of elastic deformation of the airtight lid to increase the ventilation amount.
For this reason, there is no need to use an extremely flexible member for the airtight lid, and there is a feature that efficient ventilation can be performed without deteriorating the performance of the shoe.

Further, in the shoe of the present invention, the peripheral wall is integrally formed with the grounded bottom formed of plastic to reduce the internal volume of the pump chamber. Therefore, in order to provide a pump chamber,
It does not have to be a complicated structure. Therefore, there is a feature that shoes that can be efficiently ventilated can be mass-produced at low cost.

Further, the shoe of the present invention has a feature that air leakage in the pump chamber can be reduced. In a pump chamber composed of a large and long peripheral wall, it is difficult to prevent air from leaking from all parts of the peripheral wall. The short peripheral wall has a small contact portion with the airtight lid and can reduce an air leak portion.

Further, the walkable and ventilated shoe of the present invention is
Since the heel portion is partitioned by the peripheral wall to provide the pump chamber, a gap is created between the pump chamber and the periphery of the heel portion. Since the check valve can be arranged in this gap, the check valve does not protrude from the heel portion and the design of the shoe is not deteriorated, and the feature is that the design can be neat and beautiful.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing an example of conventional shoes that can be ventilated when walking.

FIG. 2 is a perspective view showing a check valve having a simple structure developed by the present inventor.

FIG. 3 is a sectional view showing a shoe according to an embodiment of the present invention.

FIG. 4 is a plan view showing the grounded sole of the shoe according to the embodiment of the present invention.

5 is a cross-sectional view of the heel part of the grounding bottom shown in FIG.

6 is a perspective view showing a hose check valve attached to the grounded bottom of FIG. 5. FIG.

FIG. 7 is a perspective view showing an insole of the shoe shown in FIG.

8 is a cross-sectional view showing a connecting portion between the insole of the shoe shown in FIG. 3 and the airtight lid.

FIG. 9 is a sectional view showing a shoe according to another embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Grounding bottom 1A ... Heel part 2 ... Pump chamber 3 ... Middle bottom 3A ... Through hole 4 ... Airtight lid 4A ... Convex part 5 ... Check valve 6 ... Hose 7 ... Vertical slit 8 ... Circumferential wall 9 ... Upper skin 10 ... End Closing portion 11 ... Central closing portion 12 ... Opening portion 13 ... Air chamber 14 ... Ventilation hole 15 ... Through hole 16 ... Partition wall

Claims (3)

[Claims] 1. A pump chamber (2), which is stepped on by a foot to change its internal volume when walking, is provided in the grounded bottom (1), and the pump chamber (2) has a check valve (5). It is connected to the outside and inside of the shoe via the grounding sole (1) and the pump chamber (2) is deformed by the foot and the air is pushed out to reduce the pedaling force. Then, in a shoe in which the pump chamber (2) is elastically restored to suck in air, the grounding sole (1) is molded from plastic and the heel (1
A part of (A) is partitioned by the peripheral wall (8) to separate the pump chamber (2) smaller than the inner shape of the heel part (1A), and the peripheral wall (8) that partitions the pump chamber (2) is It is integrally formed with the grounding bottom (1) in a shape that opens upward and closes the periphery, and the upper surface opening of the peripheral wall (8) is airtightly closed by an elastically deformable airtight lid (4) to close the pump chamber ( 2), and this pump chamber (2) is a check valve.
A walkable and ventilated shoe characterized by being connected to the outside and the inside of the shoe via (5). 2. A pump chamber (2), whose inner volume is deformed when stepped on by a foot when walking, is provided in the grounded bottom (1), and this pump chamber (2) has a check valve (5). It is connected to the outside and inside of the shoe via the grounding sole (1) and the pump chamber (2) is deformed by the foot and the air is pushed out to reduce the pedaling force. Then, in a shoe in which the pump chamber (2) is elastically restored to suck in air, the grounding sole (1) is molded from plastic and the heel (1
Part of (A) is partitioned by the peripheral wall (8) that elastically deforms, and the heel part (1A)
The pump chamber (2), which is smaller than the inner shape of the pump chamber, is separated. The upper opening of the peripheral wall (8) is hermetically closed by an airtight lid (4) to form a pump chamber (2), and this pump chamber (2) is a check valve.
A walkable and ventilated shoe characterized by being connected to the outside and the inside of the shoe via (5). 3. The check valve (5) is a flexible hose (6) having a vertical slit (7) on its surface, and when the air passes from the inside to the outside of the hose (6), the vertical slit (5) 7) open and hose (6)
Vertical slits as air tries to pass from the outside to the inside
The walkable and ventilated shoe according to claim 1 or 2, wherein (7) is configured to be closed.