KR200365883Y1 - shoes with ventilation structure - Google Patents

Abstract

The present invention relates to a shoe having a ventilation structure, it can remove the odor, moisture, etc. due to the sweat generated in the shoe when wearing the shoe to the outside by stepping pressure when walking, so that the smell of the foot can be removed It relates to a shoe having a ventilation structure that can effectively prevent diseases such as athlete's foot and eczema.

Description

Shoes with ventilation structure

The present invention relates to a shoe having a ventilation structure, it can remove the odor, moisture, etc. due to the sweat generated in the shoe when wearing the shoe to the outside by stepping pressure when walking, so that the smell of the foot can be removed It relates to a shoe having a ventilation structure that can effectively prevent diseases such as athlete's foot and eczema.

Generally, shoes are used to protect the foot when a person walks and are manufactured and used in various forms and types. Since these shoes are usually made of leather or synthetic resin, which is not well ventilated, the inner space surrounding the foot is sealed except for a certain part of the upper of the shoe, which can be worn and removed. Water, etc. are difficult to fall out, and in the severe case, a foot disease such as athlete's foot or eczema is easily generated.

As a method for preventing foot odor or disease caused by such existing shoes, a design for forming an air vent in the upper surface of the shoe so that outside air flows into the shoe is presented in the publication of Korean Utility Model Registration No. 20-0313791. However, the air intake hole is blocked, there is a disadvantage that does not perform properly as a ventilation means. In addition, since the air inlet hole and the air outlet hole is formed in the outer shell of the shoe, that is, the visible portion there is aesthetic problems.

On the other hand, the invention to actively discharge to the outside by the stepping pressure during walking is proposed in the publication of the prior art Korean Patent Publication No. 2003-0031374. However, the above-described invention has a problem that the discharge check valve is installed on the bottom of the shoe so that when the discharge check valve is subjected to reverse pressure, external moisture or air enters into the chamber.

The present invention has been devised to solve the above problems, and can remove the smell of the foot because the odor, moisture, etc. due to the sweat generated inside the shoe can be discharged to the outside by stepping pressure when walking. At the same time, it can effectively prevent diseases such as athlete's foot, eczema, etc., and can make the inside of the shoes comfortable, improving the wearing comfort of the shoes, and vent holes are formed on the outer side of the inconspicuous soles to compensate for aesthetic problems. The purpose of the present invention is to provide a shoe having a ventilation structure in which a reverse pressure is not applied and external moisture or air does not occur in the air compression chamber.

Another feature of the present invention is to prevent the leakage of air and moisture moving to the air flow path and the air compression chamber can be expected a piston effect, the shock absorbing power that can mitigate the impact transmitted to the ankle and knee of pedestrians when walking and To provide a cushioning effect, to provide a shoe having a ventilation structure that can reduce the weight of the shoe.

Another feature of the present invention is to provide a shoe having a ventilation structure that not only increases the responsiveness of the pumping action but also facilitates shoe manufacturing.

1 is an exploded perspective view showing a shoe having a ventilation structure according to a preferred embodiment of the present invention.

Figure 2a is a cross-sectional view showing a state when the pedestrian wearing the shoes of Figure 1 step on the ground on the back side.

Figure 2b is a cross-sectional view showing a state when the pedestrian wearing the shoes of Figure 1 put the front side of the foot on the ground.

<Explanation of symbols for the main parts of the drawings>

100: shoe body 110: upper

130: endothelium 131: suction hole

200: outsole 210: air compression chamber

211: discharge hole 230: air flow path

250: suction check valve 270: discharge check valve

280: Cushion layer seating portion 290: Heel

300: elastic member 310: top plate

330: Bottom 350: Spring

400: cushion layer 410: through hole

430: elastic member through hole

Shoes having a ventilation structure of the present invention for achieving the above object is a shoe body consisting of an upper and the inner skin provided on the lower surface of the upper of the shoe; In the shoe comprising a: a suction hole communicating with the inside of the shoe body is formed on the front side of the inner shell, the sole is formed on the outer surface of the sole on the outer side of the sole An air compression chamber having a discharge hole communicating with the air compression chamber is formed, an air flow path communicating with the suction hole and the air compression chamber is formed in the sole, and an elastic member having a stretching action is provided in the air compression chamber. The air flow passage is provided with a suction check valve for intermittent entry of air.

According to this configuration, the odor, moisture, etc. due to the sweat generated inside the shoe can be discharged to the outside by the stepping pressure when walking, so that the smell of the foot can be removed and the disease such as athlete's foot or eczema can be effectively removed. It can prevent and make the inside of a shoe comfortable, and can improve shoe wearing comfort.

In addition, the discharge hole is formed on the outer surface of the sole that is inconspicuous, so that it can compensate for the aesthetic problem, the reverse pressure is not applied does not cause a problem that the external moisture or air enters the air compression chamber.

In the above configuration, it is preferable that the discharge hole is further provided with a discharge check valve for opening and closing operation in the opposite direction to the suction check valve.

Further, when the sole is formed on the air flow path and the upper surface of the air compression chamber and the cushion layer seating portion to be recessed from the surface of the sole, and the cushion layer seating portion is formed with a cushion layer having a through hole corresponding to the suction hole, Piston effect can be expected as it can block the leakage of air and moisture to the air flow path and the air compression chamber.

In addition, it is possible to obtain a shock absorbing force and a buffering effect that can mitigate the impact transmitted to the ankle and knee of the pedestrian during walking.

Furthermore, since the weight of the shoes can be reduced, it is possible to produce light and comfortable shoes.

Here, the elastic member is preferably composed of a top plate, a bottom plate, and a spring provided between the top plate and the bottom plate.

On the other hand, the cushion layer is further formed with an elastic member through hole to correspond to the air compression chamber, the upper plate penetrates through the elastic member through hole and in contact with the endothelial, not only the response of the pumping action is faster, but also the shoe manufacturing This becomes convenient.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the present invention in detail as follows.

For reference, among the configurations of the present invention to be described below, the same configuration as the prior art will be referred to the above-described prior art, and a detailed description thereof will be omitted.

1 is an exploded perspective view showing a shoe having a ventilation structure according to a preferred embodiment of the present invention, Figure 2a is a cross-sectional view showing a state when the pedestrian wearing the shoe of Figure 1 stepped on the ground on the back of the foot 2B is a cross-sectional view showing a state when the pedestrian wearing the shoe of FIG. 1 steps on the front side of the foot.

As shown in FIG. 1, the shoe having a ventilation structure according to the present embodiment includes a shoe body 100 formed of an upper 110 and an inner skin 130, and a sole 200 coupled to a lower surface of the upper 110. It is made to include.

Upper 110 of the shoe body 100 forms the outer shape of the shoe, the lower surface of the upper 110 is configured by the endothelial 130 is coupled.

At this time, the endothelial 130 may be formed integrally with the upper 110 as in the embodiment of the present invention, of course.

A suction hole 131 communicating with the inside of the shoe body 100 is formed at a portion where the front side of the endothelium 130, that is, the front side of the foot, touches.

Here, although not shown in the drawings of the present invention, a conventionally known insole (not shown) may be formed on the bottom of the shoe. In this case, a hole may be formed in a position corresponding to the suction hole 131 in the insole, or the insole may be formed only in a portion where the rear portion of the foot touches, and may be variously performed as described above.

On the other hand, the air compression chamber 210 is formed on the rear side of the sole 200 is coupled to the lower surface of the upper 110.

The material of the sole 200 is light but shock-absorbing power is good when using a synthetic rubber such as styrene butadiene rubber, urethane rubber, acrylic rubber.

The air compression chamber 210 has a discharge hole 211 is formed on the outer surface of the sole 200 to communicate with the outside of the sole 200.

In addition, the sole 200 has an air flow path 230 in communication with the suction hole 131 and the air compression chamber 210 of the endothelium 130 is formed.

The air compression chamber 210 is provided with an elastic member 300 to stretch.

The elastic member 300 is preferably composed of a plurality of springs 350 provided between the upper plate 310, the lower plate 330, and the upper plate 310 and the lower plate 330.

The elastic member 300 is preferably formed to protrude more than the other surface of the sole 200.

The elastic member 300 may expand and contract the volume of the air compression chamber 210 while acting up and down by stepping pressure when walking.

On the other hand, the air flow path 230 in communication with the air compression chamber 210 is provided with a suction check valve 250 to control the entry and exit of air.

The suction check valve 250 allows the air inside the shoe introduced through the suction hole 131 to be moved to the air compression chamber 210 through the air flow path 230 and not to be moved in the reverse direction. .

Here, the discharge hole 211 formed in the air compression chamber 210, the discharge check valve 270 which is opened and closed in the opposite direction to the suction check valve 250 formed in the air flow path 230 is further installed. desirable.

That is, the discharge check valve 270 allows the air introduced into the air compression chamber 210 through the air flow path 230 to be discharged to the outside of the shoe through the discharge hole 211, it can be introduced in the reverse direction Do not.

Here, it is preferable that the cushion layer seating portion 210 is further formed in the sole 200 to be recessed from the surface of the sole 200 on the air flow path 230 and the air compression chamber 210.

After the cushion layer 400 is seated on the cushion layer seating part 210, the cushion layer 400 may be adhered to the cushion layer seating part 210 using thermocompression or an adhesive.

The cushion layer 400 may use a material having elasticity so that the cushion layer 400 may function as a barrier that can completely block without absorbing water or air and can be easily restored to its original form.

Here, the through hole 410 is formed in the cushion layer 400 to correspond to the suction hole 131.

When the cushion layer 400 is further formed, the air flow path 230 and the air compression chamber 210 can block the leakage of air and moisture moving to the piston effect can be expected.

In addition, it is possible to obtain a shock absorbing force and a buffering effect that can mitigate the impact transmitted to the ankle and knee of the pedestrian during walking.

Furthermore, since the cushion layer 400 is made of a material having a lighter weight than the sole 200, the weight of the shoe can be reduced, and thus, a light and comfortable shoe can be produced.

Meanwhile, the cushion layer 400 may further include an elastic member through hole 430 at a position corresponding to the air compression chamber 210 of the sole 200.

The elastic member through-hole 430 is in contact with the endothelium 130 by protruding through the upper plate 310 of the elastic member 300.

When the elastic member through-hole 430 is further formed in the cushion layer 400, the stepping pressure of the pedestrian is directly transmitted to the elastic member 300 without passing through the cushion layer 400, thereby speeding up the response of the pumping action.

In addition, since the elastic layer 300 can be easily installed in the air compression chamber 210 after adhering the cushion layer 400 to the cushion layer seating part 280 when manufacturing shoes, the manufacturing becomes convenient.

Meanwhile, the air compression chamber 210 may be formed in the heel 290 of the sole 200.

Here, although the heel 290 is shown as integrally formed on the sole 200 in the drawings of the present invention, the heel 290 and the sole 200 are formed separately, of course, can be combined with each other.

As such, when the air compression chamber 210 is formed in the heel 290, unnecessary internal space of the heel 290 may be actively utilized.

The operation of this embodiment having the above-described configuration will be described below.

As shown in FIG. 2A, when the pedestrian wearing the shoe touches the rear side of the foot on the ground, the weight is placed on the elastic member 300 which closes the rear side of the foot, and the elastic member 300 is compressed, thereby compressing the air compression chamber 210. The volume will be reduced.

At this time, the discharge check valve 270 of the discharge hole 211 is opened, and the air of the air compression chamber 210 is discharged to the outside of the shoe.

At this time, since the suction check valve 250 installed in the air flow path 230 is installed in a reverse direction with the discharge check valve 270, it maintains a closed state.

On the other hand, as shown in Figure 2b, when the pedestrian is stepping on the ground of the foot, the elastic member 300 is restored to its original state while the negative pressure is formed as the volume of the compressed air chamber is extended, the suction check valve ( As the 250 is opened, the air inside the shoe is sucked through the suction hole 131 to be introduced into the air compression chamber 210 along the air flow path 230.

At this time, since the discharge check valve 270 is installed in a reverse direction to the suction check valve 250, it maintains a closed state.

As such, the pumping action of the elastic member 300 is repeated according to the stepping pressure of the pedestrian so that air, moisture, and the like in the shoe may be continuously discharged to the outside.

As a result, odors and moisture caused by sweat generated inside the shoes can be discharged to the outside by stepping pressure when walking, so that foot odor can be removed and diseases such as athlete's foot and eczema can be effectively prevented. have.

Furthermore, since the inside of the shoe can be made comfortable, the shoe fit can be improved.

In addition, the discharge hole 211 is formed on the outer surface of the outsole 200 is inconspicuous, and can compensate for aesthetic problems, even if the water up to the sole 200 during the rainy season atmospheric pressure and discharge hole of the water surface Since the pressure of 211 is the same, the reverse pressure is not applied, so that a problem that external moisture or air enters the air compression chamber 210 does not occur.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art will vary the invention without departing from the spirit and scope of the subject innovation described in the utility model registration claims below Can be modified or modified.

According to the shoe with a ventilation structure of the present invention as described above, there are the following effects.

First, an intake hole communicating with the inside of the shoe body is formed at the front side of the endothelial body, and an air compression chamber is formed at the outer side of the sole with an outlet hole communicating with the outside of the sole, and an intake hole and air at the sole An air flow path communicating with the compression chamber is formed, and an elastic member having a telescopic action is provided in the air compression chamber, and an inlet check valve is provided in the air flow path to control the inflow and out of the air. Odor, moisture, etc. due to sweat can be discharged to the outside by the stepping step when walking, so that it can remove the foot odor and effectively prevent diseases such as athlete's foot or eczema.

Furthermore, since the inside of the shoe can be made comfortable, the shoe fit can be improved.

In addition, the discharge hole is formed on the outer surface of the sole, which is invisible, so that it can compensate for the aesthetic problem. There is no problem that external moisture or air enters the air compression chamber.

Second, the sole is formed with a cushion layer seating portion recessed from the surface of the sole at the upper portion of the air flow path and the air compression chamber, and the cushion layer seating portion has a cushion layer formed with a through hole corresponding to the suction hole, thereby providing an air flow path and air compression. Piston effect can be expected as it can block the leakage of air and moisture to the seal.

In addition, it is possible to obtain a shock absorbing force and a buffering effect that can mitigate the impact transmitted to the ankle and knee of the pedestrian during walking.

In addition, the cushion layer is made of a lighter weight than the sole, it is possible to reduce the weight of the shoe, it is possible to produce a light and comfortable shoes.

Third, the cushion layer is further formed with an elastic member through hole corresponding to the air compression chamber, the upper plate is through the elastic member through hole to contact the endothelial, so that the stepping pressure of the pedestrian is transmitted directly to the elastic member without passing through the cushion layer, The responsiveness of the pumping action is faster.

In addition, since the cushioning layer is attached to the cushioning layer seating part during shoe manufacturing, the elastic member can be easily installed in the air compression chamber, thereby making the manufacturing easier.

Claims (5)

An upper body forming an outer shape of the shoe and an inner body provided on the lower surface of the upper; In the shoe comprising: a sole coupled to the lower surface of the upper: The front side of the endothelial is formed with a suction hole in communication with the interior of the shoe body, The sole is formed with an air compression chamber formed on the outer surface of the sole and provided with a discharge hole in communication with the outside of the sole, The sole is formed with an air flow path communicating with the suction hole and the air compression chamber, In the air compression chamber is provided with an elastic member that stretches, Shoes having a ventilation structure, characterized in that the air flow path is provided with a suction check valve for regulating the entry and exit of air. The method of claim 1, Footwear having a ventilation structure, characterized in that the discharge hole is further provided with a discharge check valve for opening and closing operation in the opposite direction to the suction check valve. The method according to claim 1 or 2, The sole is provided with a cushion layer seating portion recessed in the surface of the sole on the air flow path and the upper air compression chamber, Footwear having a ventilation structure, characterized in that the cushion layer seating portion is seated on the cushion layer is formed with a through hole corresponding to the suction hole. The method of claim 3, wherein The elastic member is a shoe having a ventilation structure, characterized in that consisting of a spring provided between the upper plate, the lower plate, and the upper plate and the lower plate. The method of claim 4, wherein An elastic member through hole is further formed in the cushion layer to correspond to the air compression chamber. The upper plate is a shoe having a ventilation structure, characterized in that in contact with the endothelial through the elastic member through hole.