KR100788409B1 - Outsole with a structure of ventilation - Google Patents

Abstract

A shoe outsole with a ventilation structure is provided to achieve an air circulation between the inside and outside of a shoe even when a user's foot is moved a little so as to maintain comfortable temperature and humidity conditions inside the shoe at all times. A shoe outsole with a ventilation structure comprises: many cut portions(2), configured in such a manner that many parts of an outsole body(1) are penetrated from an upper to a lower side thereof; and an air groove(3), formed up to a determined depth on an upper part of the each cut portion, so that an air is mutually interchanged between the inside and outside of a shoe body by a pumping operation of the air groove and a switching operation of the cut portion.

Description

Outsole with a structure of ventilation

1 is an overall perspective view of the present invention

2 is a bottom view of the present invention

Figure 3 is a cross-sectional view showing the operating state of the present invention when ignited

Figure 4 is a cross-sectional view showing the operating state of the present invention when walking

5 is an exemplary view of a shoe showing an example of use of the present invention

※ Explanation of codes for main parts of drawing

1: Outsole 2: Incision

3: air groove 4: waterproof film

The present invention relates to a shoe outsole having a ventilation structure, and more specifically, by forming a plurality of incisions penetrating up and down on the outsole, the user due to the sweat and heat generated when walking, such as walking for a long time wearing shoes It relates to a shoe outsole with a ventilation structure to alleviate the increase in fatigue on the feet and soles of the feet by the inflow of fresh air to improve the user's athletic ability and improve the fit.

Although shoes were born with the main purpose of protecting the feet from the external environment, many changes and improvements have been made due to the flow of the times and the development of materials.In particular, in modern society, shoes for specific uses are developed in accordance with the activation of physical education. It is becoming.

In particular, recent sports shoes have been developed in the form of functionalized with a variety of functions, such as shock absorption, non-slip, breathability, etc. are mainly developed.

It is true that many of these functions have made great progress through the development of materials used or additional devices. In particular, in the case of the outsole that is mounted on the shoe to protect the foot from the ground, the impact absorption or slippage is remarkably improved by utilizing various new materials, but the development of the breathable ability is insufficient due to the functional structure of the foot and the shoe.

Due to these structural characteristics, there have been many attempts to increase breathability in the upper part surrounding the foot, but the ability to breathe in the sole surface of the shoe and the grounding part of the foot has limitations.

 In order to improve such a part, an air pump is installed inside the shoe contacting the sole, or an air circulation groove is structured to increase the breathability, but it has not been generalized due to the limitation of the function expansion. In the case of the air pump, the size of the pump pressed during walking has a limit, and the air cannot be supplied as much as desired. In the case of the air circulation groove, the soles of the soles and the soles of the shoes have a close contact with the body weight. There was a problem that was not made.

 In recent years, attempts have been made to increase breathability by allowing all used materials to penetrate a certain area where the sole and the sole of the shoe come into contact with each other. However, there is no separate structural device for inducing the flow of air. It was just enough to break through.

In the structure of such shoes, when the user performs exercise after ignition, the inside of the shoe is moistened and the heat is increased due to the sweat and heat emitted from the feet and the soles (especially the bottom), resulting in the reduction of exercise ability and hygiene problems due to the accumulation of fatigue. There was a problem causing it.

An object of the present invention is to solve the above problems, to provide a breathable shoes that can maintain the temperature and humidity of the inside of the shoe at all times by allowing the air inside and outside the shoe to circulate even through a small movement of the foot in the ignited state Is in.

To this end, the present invention has a cut portion cut through the upper and lower parts of the outsole, and has a specific purpose to provide a structure to achieve the above object by forming an air groove in the upper portion of the cutout.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

The invention is characterized by the ventilation structure of the outsole 1 which is joined with the upper protecting the upper part of the foot to protect the foot from the ground. That is, a plurality of cutouts 2 penetrating the upper and lower portions are formed in the outsole 1, and the air grooves 3 are formed at a predetermined depth in the upper portion of the cutouts 2. Therefore, the incision (2) is opened and closed in accordance with the movement of the foot when walking or running to interact with the air inside and outside the shoe.

Typically, the outsole 1 to be mounted on a shoe is a unit sole consisting of one structure, or there is a bonded outsole 1 composed of two or more outsoles or midsoles. In any of the above cases, the bottom surface is kept at a constant thickness (or height) to protect the impact of the sole and to provide a comfortable fit.

The present invention improves the circulation of air to the bottom of the shoe by a structural device for the intake and discharge of air in the outsole (1) formed in a variety of structures as described above.

The conventional shoe outsole (1) uses a soft material that adjusts the structure and a certain degree of strength so that when the foot touches the ground for shock absorption, the impact of the weight can be absorbed through the shoe outsole (1). Done.

 In view of the characteristics of the structure and the material of the present invention, first, a number of air grooves 3 of appropriate sizes are formed on the bottom surface of the position where the foot is bent when the foot is walking or running, that is, the contact surface of the foot. These air grooves 3 function sequentially by the drive of the foot.

The plurality of air grooves 3 installed on the bottom surface are formed at the upper part of the cutout 2 penetrating the contact surface of the outsole 1 facing the outside of the shoe and the bottom surface contacted inside the shoe. The cutout 2 may be a narrow groove formed by cutting with a knife or the like, or a structure into which a material that can be vented is inserted.

As shown in Figure 3 (a) the incision 2 formed in the outsole 1 mounted on the shoe is closed when there is no movement of the foot. However, when the load of the foot for walking is applied, the weight of the soft sole outsole (1) is pressed at this time, the air groove 3 of the bottom surface is also pressed, as shown in (b) of FIG. The air stayed in 3) is pushed into the inside of the shoe.

The bottom surface of the air groove 3 and the outsole 1 are penetrated by the cutout 2, but are closed by being in close contact with the weight, so that the air of the air groove 3 moves inside the shoe having a weak pressure. .

And in the initial stage of the roll to bend the foot after the end of the primary pressing, as shown in Figure 4 (a) to restore the close contact of the upper surface of the foot and the outsole (1) while restoring the air inside the shoe It is sucked into the groove (3). At this time, the air inside the shoe having a lower pressure than the cutout 2 formed to penetrate is sucked in.

The incision (2) is simply a state of incision that is closed if there is no bending in the incision, and the incision (2) in contact with the sole is through a wide surface by the air groove (3) to the above pressure difference The circulation of air by this happens inside the shoe.

As the bottom surface is restored, the air inside the shoe is sucked into the air groove 3, and the bottom surface bending occurs in the next walking operation. At this time, as shown in (b) of FIG. 4, the cutout 2 is bent to open and exchange with air outside the shoe. Therefore, the air inside the shoe that stayed in the air groove 3 is in communication with the air outside the shoe, the air of the air groove 3 is replaced by the outside air.

As a result of this repetition, the air in the shoe continues to introduce fresh air due to the walking motion or the rolling motion of the foot.

Since the bottom surface of the shoe and the inner surface of the shoe that the sole is in contact with each other, the inflow of water or foreign matters can be expected. The inflow of water can be vented to the bottom surface where the sole is in contact, and it is also possible to use a waterproof film that prevents the inflow of water. That is, it is used by attaching the waterproof film 4 to the upper portion of the outsole 1 as shown in the embodiment shown in Figure 5, the air and fine moisture particles are discharged, the water or foreign matter is discharged to the outside.

As described above, in the present invention, an incision 2 penetrating up and down is formed in the outsole 1, and an air groove 3 is formed in the upper portion of the incision 2, so that even with the operation of a small foot in a state of wearing shoes. Keeping the air in your shoes fresh all the time reduces fatigue and doubles your ability to exercise. And the air groove 3 installed on the sole surface has the effect of absorbing the shock applied to the foot as the air of the air groove 3 is sequentially introduced into the shoe when the weight is loaded on the bottom surface.

And the air groove (3) formed on the upper surface of the outsole (1) in contact with the sole is configured to match the direction of the flexion by the rolling action of the foot to assist the rolling operation of the foot to induce the correct walking, the foot through the habit of its Malformation growth can also be prevented.

With the various effects as described above, the additional cost for the functional configuration is low, maximizing the economic benefits.

Claims (2)

In forming the ventilation structure of the outsole 1 constituting a part of the shoe, a plurality of incisions (2) penetrating the upper and lower portions are formed in the outsole (1), the air groove (top) in the upper portion of the incision (2) 3) is formed to a certain depth, the outsole of the shoe with a ventilation structure, characterized in that the air between the inside and outside of the shoe by the pumping operation of the air groove (3) and the opening and closing operation of the incision (2) in accordance with the movement of the foot . delete

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