KR101089759B1 - Shoes sole's structure that have excellent ventilation function and duplex landing function - Google Patents

Abstract

PURPOSE: A structure of a shoe sole is provided to effectively absorb an impact generated in walking and to secure comfortable and safe walking. CONSTITUTION: A structure of a shoe sole comprises: a midsole(100) which is formed in the bottom of the heel, communicates with a ventilating duct supplying air to the inner part of the shoe, and includes a main hole supplying the air to the inner part of the shoe; a flat pressure pad(210) which is convexly projected from the floor in a part corresponding to the main hole; and an outsole(200) in which a joint part is formed.

Description

Shoes sole's structure that have excellent ventilation function and duplex landing function}

The present invention relates to a structure of a shoe brush having an excellent shock absorption function and excellent ventilation function to improve the air permeability by smoothly inflowing fresh air from inside the shoe at the same time as walking while having excellent shock absorption function.

Ordinary shoes are worn on a person's foot to protect the person's foot and facilitate the movement of the person. These shoes are manufactured in various kinds to meet the functional aspects required according to the activity area of the person as well as the standard of living. For example, there are kinds of shoes such as sneakers, shoes, work shoes, boots and hiking boots.

Such shoes are able to meet the functions according to the activity area of the person to improve the convenience and efficiency to the people of the activity area, but are manufactured only in the form of enclosing the foot of the person. In the surface portion of the foot of the person wrapped by such shoes, the temperature increases due to friction between the person's foot and the inner surface of the shoe, as well as the humidity due to the sweat generated from the person's foot. As a result, odors are generated in the shoes and in the feet of people, and furthermore, the feet of people have to suffer from chronic diseases such as athlete's foot.

The present invention is to solve the problems as described above, it is possible to effectively absorb the shock generated when walking, comfortable and safe walking, excellent ventilation function to maintain a pleasant state by continuously supplying air into the shoe The purpose is to obtain a shoe brush structure having a double landing function.

In order to achieve the above object, the present invention is formed on the bottom of the heel and communicating with the inside of the shoe and the main groove for supplying air and protruding convexly to the floor from the corresponding portion of the main groove and the pressure pad and Comprising a sole that is formed to connect the sole is formed, the bottom surface of the pressure pad is in contact with the bottom has a double landing process in which the bottom surface of the sole is in contact with the floor after being introduced into the main groove, Formed to a thickness thinner than the pressure pad proposes a shoe sole structure having excellent ventilation function, characterized in that to facilitate the smooth inlet of the pressure pad when landing, having a double landing function.

According to the present invention, the air is naturally generated during walking and supplied to the inside of the shoe, and the pressure pad is formed to protrude downward to the ground, thereby increasing the internal space between the pressure pad and the groove formed in the midsole, and applying to the midsole from the body during walking. The force and the force applied to the pressure pad in the ground at the same time to increase the internal pressure, the air inflow amount is improved as well as the shock absorbing power is increased to enable a comfortable and comfortable walking.

In addition, it is possible to prevent the slip when walking through the double landing due to the organic action of the pressure pad and the bottom of the sole is to enable a stable walking.

Furthermore, in the present invention, the pressure pad and the groove are formed in all parts of the front heel and the heel and communicate with each other through the flow path tube, so that the air inflow amount and the shock absorption amount can be further excellent.

1 is an exploded perspective view of a shoe brush according to the present invention;
2 is a plan view of the midsole according to the present invention,
3 is a perspective view showing an upper surface of the midsole according to the present invention;
4 is a cross-sectional view of the midsole in accordance with the present invention;
5 is a plan view showing another embodiment of a sole according to the present invention,
6 is an exemplary view showing that the air flows in the shoe brush according to the invention,
Figure 7 is an illustration showing the shrinkage of the shoe brush according to the invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing in detail the operating principle of the preferred embodiment of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 1 to 7.

1 is an exploded perspective view of a shoe brush according to the present invention, Figure 2 is a plan view of the midsole according to the invention, Figure 3 is a perspective view showing a top surface of the midsole according to the invention, Figure 4 is a midsole according to the invention 5 is a plan view showing another embodiment of the sole according to the invention, Figure 6 is an exemplary view showing the flow of air in the shoe brush according to the invention, Figure 7 is a shoe brush according to the invention An illustration showing shrinkage.

As shown in FIGS. 1 to 3, the shoe brush according to the present invention has a main groove 110 formed on a bottom surface of the foot where the heel touches, and a ventilation groove 120 on the upper surface of the foot where the heel touches the foot. Produced by combining the midsole 100 and the sole 200 is formed, including a sole 200 is formed a pressure pad 210 in the corresponding portion of the midsole 100 and the main groove 110 is formed; It is.

The main groove 110 formed in the midsole 100 is formed to a predetermined depth to generate air at a pressure by the pressure pad 210. In addition, the ventilation groove 120 is formed at a portion where the front heel of the foot touches the upper surface of the midsole 100, and communicates with the main groove 110 to receive air generated from the main groove 110 into the shoe. To supply.

Hereinafter, the main groove 110 and the ventilation groove 120 will be described in detail, the main groove 110 and the ventilation groove 120 is the flow path 130 is coupled to the midsole 100 2 through 3, the flow pipe 130 has one end connected to the main groove 110 and the other end connected to the ventilation groove 120 so as to communicate with the main groove 110. Communicate with the ventilation groove 120. At this time, the flow pipe 130 is one end is connected to the main groove 110, as shown in Figure 4, extends in the longitudinal direction of the bottom surface of the midsole 100 is the central portion of the midsole 100 It penetrates through the midsole 100 and protrudes to the upper surface of the midsole 100, and extends to the ventilation groove 120 along the longitudinal direction of the upper surface of the midsole 100. Therefore, all of the air generated in the main groove 110 flows through the flow pipe 130 to flow into the ventilation groove 120.

The pressure pad 210 formed on the sole 200 has a flat plate shape and is made of a rubber material to which elastic force is added. The pressure pad 210 is formed to be convex so as to protrude from the bottom of the sole 200 to the bottom, and to contact the bottom when landing. When the entire bottom surface of the pressure pad 210 touches the bottom and draws toward the main groove 110 to induce air and absorb shock. That is, the pressure pad 210 protruding protruding in the bottom direction is in contact with the ground when landing and is introduced into the main groove 110 to increase the internal pressure of the main groove 110 to induce air, causing The compressed air flows through the flow pipe 130 and flows into the ventilation groove 120.
At this time, the sole 200 is a joint 214 connecting the pressure pad 210 and the sole 200 along the edge is formed along the edge of the pressure pad 210, the joint 214 ) Is formed thinner than the thickness of the pressure pad 210 and is convexly formed in the main groove 110 direction. This is to allow the pressure pad 210 to be smoothly drawn in, the edge of the pressure pad 210 connected to the sole 200 protrudes convexly to extend the length, thereby the pressure pad 210. ) Can be compensated for the length of the edge portion by the tensile force generated in the edge portion in the process of retracting the pressure pad 210 can be smoothly retracted.

On the other hand, the inside of the main groove 110 protrudes the bottom surface and the end is a cylindrical midsole protrusion 112 is in contact with the pressure pad 210 is formed, the midsole protrusion 112 is contracted and expanded and the contact The pressure pad 210 supports and absorbs shock. That is, when the pressure pad 210 is introduced into the main groove 110 during the landing process, the midsole protrusion 112 contracts and absorbs the shock generated by the pressure pad 210, and the pressure pad When the 210 protrudes outward again, it expands and continues to support the pressure pad 210. At this time, the midsole protrusion 112 is not limited to the cylindrical shape is to be formed in the size and shape so as to have an optimal shock absorption amount according to the size and shape of the shoes to be produced.

In addition, a pad groove 212 into which the midsole protrusion 112 is fitted is formed on an upper surface of the pressure pad 210, and the pad groove 212 is formed at a corresponding portion of the midsole protrusion 112. It wraps around the outer circumferential surface of the midsole protrusion 112 inserted into the inside. Accordingly, the pressure pad 112 is introduced into the main groove 110 so that the midsole protrusion 112 is contracted or the pressure pad 112 protrudes from the bottom to expand the midsole protrusion 112. In the process, the pad groove 212 may surround the outer circumferential surface of the midsole protrusion 112 to prevent the midsole protrusion 112 from being flipped or separated and to increase the shock absorbing force of the midsole protrusion 112.

As shown in FIG. 5, an auxiliary pad 220 may be additionally formed in a corresponding portion of the auxiliary groove 140 in the sole 200. Therefore, the auxiliary pad 220 and the auxiliary groove 140 also has the same effect as the organic action between the pressure pad 210 and the main groove 110 is generated, further improved shock absorption and air induction amount You can have

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Looking at the process of generating shock flow and flow when walking by the shoe brush having the structure as described above as shown in Figure 6 to 7,
When landing, the entire bottom surface of the pressure pad 210 simultaneously touches the floor to draw in the main groove 110, and the air inside the main groove 110 flows along the flow pipe 130 as shown in FIG. 6. It reaches the ventilation groove 120 is introduced into the shoe. At the same time, the midsole protrusion 112 supporting the pressure pad 210 gradually contracts while the pressure pad 210 is drawn in, and undergoes a first landing process to sufficiently absorb shock.
After that, when the pressure pad 210 is completely inserted into the main groove 110, the bottom surface of the pressure pad 210 and the bottom surface of the sole 200 are aligned to form all bottom surfaces of the sole 200 on the bottom. It is possible to land completely stably through the second landing process. Due to the double landing process through the introduction of the pressure pad 210 as described above, the amount of air induction and the amount of shock absorption is increased, so that the imaginary pleasant state can be maintained and stable and comfortable walking.

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100: midsole 110: main home
120: auxiliary groove 130: euro tube
200: Sole 210: Pressure pad

Claims (5)

A midsole 100 formed on the bottom of the heel and communicating with a ventilation groove 120 for supplying air into the shoe and including a main groove 110 for supplying air into the shoe;
Outsole is formed with a plate-shaped pressure pad 210 protruding convexly from the corresponding portion of the main groove 110 and a joint 214 connecting the pressure pad 210 and the sole 200 ( It comprises a 200, the bottom surface of the pressure pad 210 is brought into the main groove 110 and after the bottom surface of the sole 200 has a double landing process to touch the floor,
The joint portion 214 is formed to a thickness thinner than the pressure pad 210 to facilitate the smooth intake of the pressure pad 210 when landing, characterized in that the structure of the shoe brush having a double landing function . The method according to claim 1,
The main groove 110 is formed with a midsole protrusion 112 for supporting the pressure pad 210, the midsole protrusion 112 is contracted during the inlet of the pressure pad 210 and absorbs the shock generated from the ground The shoe sole structure has excellent ventilation and double landing function. The method of claim 2,
The pressure pad 210 is provided with a pad groove 212 into which the midsole protrusion 112 is fitted, thereby preventing warpage of the contracted midsole protrusion 112 and increasing shock absorbing power. The structure of the shoe brush is excellent and double landing function. The method according to claim 1,
The midsole 100 has an auxiliary groove 140 is formed on the bottom of the front heel,
The sole 200 is excellent in ventilation function, characterized in that the auxiliary pad 220 is formed in the corresponding portion of the auxiliary groove 140, the structure of the shoe brush having a double landing function. The method according to claim 1,
The midsole 100 has a superior ventilation function, characterized in that it further comprises a flow passage tube 130 of the tubular shape in which the main groove 110 and the ventilation groove 120 is in communication with a double landing function.

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