KR102093320B1 - Insole with air circulation structure - Google Patents

Abstract

The present invention relates to an insole having an air circulation structure, which allows air to be more smoothly circulated. The insole having an air circulation structure of the present invention comprises: a fabric unit formed with a first inlet and a first outlet; and an air circulation unit including rear and front end parts and a second outlet (22) communicating with the first outlet (12) at the front end part (24).

Description

Insole with air circulation structure

The present invention relates to an insole that can prevent odor and moisture by circulating the air inside the shoe, and more specifically, the circulation structure of the air is made by a simple configuration, and thus the circulation of air is made more smooth, and the elastic restoring force It relates to an insole having an air circulation structure that can prolong the life of the valve and cushion to prevent moisture from entering the valve.

In general, to maintain the shape and strength of the shoe and reduce the fatigue of the sole where the body weight is concentrated while walking, the shoe insole is used to reduce the impact of the sole while walking. As it is used to reduce the fatigue of the foot, the odor inside the shoe is not removed, and there are problems such as athlete's foot or eczema, and recently, a separate ventilation passage is formed in the sole or midsole constituting the shoe to create the inside. The above-mentioned problem could be solved by quickly removing the odor of the body, but this was not only very complicated in structure, but also had many problems such as high cost due to high production cost. When it came, there was a drawback that water permeated inside the shoes through the ventilation passage of the floor window, and also after rain As the ventilation openings when passing the heultanggil easily blocked by mud it had several evils such as poorly ventilated shoes inside.

Therefore, in order to solve this problem, in Utility Model Publication No. 20-0209584,

Through a plurality of synthetic rubber strips in the shape of shoes to form a regular spaced air passage, and through the space for ventilation formed by forming several lines of soft stone on the outer periphery and the inner side of the upper surface to treat the bamboo strip formed with the air passage. It provides a shoe insole for ventilation that quickly circulates the humid air inside the shoe.

However, such a shoe insole for ventilation has a problem in that it is not only difficult to manufacture because it has a structure in which a plurality of bamboo strips made of one piece must be combined with an insole, and there is no economical problem due to no elastic force and high production cost and product cost.

The present invention is to solve the above problems, to improve the configuration of the valve and cushion portion having an elastic restoring force acting by air pressure and the circulation structure of the air to provide an insole having an air circulation structure for more smooth air circulation. It has a purpose.

In addition, another object of the present invention is to provide an insole having an air circulation structure capable of extending a life by completely blocking moisture flowing into a valve and a cushion.

The insole having an air circulation structure according to the present invention includes a fabric portion having a first suction port and a first discharge port; It is divided into a rear end and a front end connected by a plurality of air passages, the rear end is provided with a second suction port in communication with the first suction port, and the front end portion is provided with a second outlet in communication with the first exhaust port. It is configured to include, but, the rear end portion and the front end portion is made of an elastic material urethane foam having a porous structure so that air can be contained inside the rear end portion and the front end portion are respectively installed, the inner side on the bottom surface of the tip portion A plurality of coupling protrusions concavely formed to protrude are inserted into and fixed to the coupling holes formed in the front cushion portion, and a synthetic resin valve having a predetermined thickness that seals the second suction opening by an elastic force is coupled to the lower side of the second suction opening, and the rear end A space portion communicating with the second suction port is formed in the cushion portion, and a pressure is applied to the rear end of the insole so that the valve is bent inside the space portion. When the second suction port is opened, the air absorbed through the open area is absorbed by the rear cushion portion having a porous structure, and then the valve is restored to its original position by elastic restoring force to prevent backflow of air. Blocking the intake port, the air absorbed by the rear end cushion portion is discharged through the second outlet and the first outlet through the air passage and the end cushion portion by the pressure during walking.

According to the insole having an air circulation structure according to the present invention, the valve, the rear cushion portion and the front cushion portion acting by the air pressure generated during walking circulate the air inside the shoe to remove odor and moisture, thereby preventing diseases such as athlete's foot and eczema There is an effect that can be prevented.

In addition, the valve and the rear end cushion part and the front end cushion part are installed inside the air circulation part to block the inflow of moisture and foreign substances, thereby extending the life.

In addition, it is possible to reduce the manufacturing cost and product cost of the insole by making the air circulation structure by a simple configuration, which is more economical.

1 is a perspective view of an insole having an air circulation structure according to the present invention,
Figure 2 is an exploded view of the insole having an air circulation structure according to the present invention,
Figure 3 is a bottom perspective view of the air circulation unit according to the present invention,
4 is a partially enlarged cross-sectional view taken along line IV-IV of FIG. 1,
Figure 5 is a cross-sectional view showing the air flow diagram of the present invention.

A preferred embodiment of the present invention will be described in detail through the accompanying drawings.

The insole having an air circulation structure of the present invention is composed of a fabric portion 10 made of a fabric and an air circulation portion 20 coupled to a lower side of the fabric portion 10 as shown in FIGS. 1 and 2. .

The fabric portion 10 is formed by weaving synthetic resin yarn or natural yarn, and the air circulation portion 20 is a plastic having elasticity of rubber, and is used for various purposes such as a mobile phone case, sneakers sole, soccer ball, cutting board, When heat is applied, shape deformation occurs, it is well bent and has excellent shock absorption. It is made of eco-friendly thermoplastic polyurethane (TPU) without using additives during molding, and is firmly combined with the fabric part 10 by heat fusion.

The fabric portion 10 is formed with a first suction port 11 at the rear end where the rear portion of the sole is in close contact, and a plurality of first discharge ports 12 at the front end of the fabric portion 10 where the front portion of the sole is in close contact. Is formed.

In addition, the air circulation unit 20 is composed of a rear end portion 23 and a front end portion 24 connected by a plurality of air passages 25, and the first suction port 11 is located above the rear end portion 23. A second suction port 21 is provided at a position corresponding to, and a second discharge port 22 is formed at a position corresponding to the first discharge port 12 on an upper side of the tip portion 24.

Therefore, when the fabric portion 10 and the air circulation portion 20 are combined, the first suction port 11 and the second suction port 21, the first discharge port 12 and the second discharge port 22 are vertically It is configured to communicate with each other by being located in the same way.
Hereinafter, the first suction port 11 and the second suction port 21, which are kept in close contact with each other, as the suction ports 11 and 21, and the first discharge port 12 and the second discharge port 22 are discharge ports 12. It is collectively referred to as (22).

In addition, a plurality of engaging projections 26 are formed to be concave on the bottom surface of the tip portion 24 so as to protrude inward, and the rear end portion 23 and the tip portion 24 have a plurality of air passages. (25).

On the other hand, the inside of the air circulation portion 20 forms an empty space as shown in Figure 4, the rear end portion 23 and the front end portion 24 in the space of the rear end cushion portion 40 and the front end cushion portion 42 ) Are inserted respectively.

In particular, the rear end cushion part 40 and the front end cushion part 42 are filled and combined with the inside of the air circulation part 20, and are formed of an urethane foam made of an elastic material having a porous structure so as to contain air therein. Has technical specificity.

That is, the rear end cushion part 40 and the front end cushion part 42 are inserted into and molded together when the air circulation part 20 is molded by a mold, and the rear end cushion part 40 has an inlet 11 ) 21, the space portion 41 is formed at a position corresponding to, and the front end cushion portion 42 is formed with a coupling hole 43 at a position corresponding to the coupling protrusion 26.

Therefore, the space portion 41 is in communication with the suction port 11, 21, the coupling projection 26 is inserted into the coupling hole 43, the tip cushion portion 42 is fixed to the tip portion 24, the tip Simultaneously with the effect that the cushion portion 24 always maintains a constant shape, the air flow is accelerated while the air introduced from the air passage 25 collides with the side surface of the engaging projection 26, and the second outlet 22 To smooth out the air.

In addition, a valve 30 capable of opening and closing the suction port 11 and 21 by air pressure is coupled to the lower side of the suction port 21, and the valve 30 normally uses the elastic port to open the suction port 11 and 21. It is made of synthetic resin having a predetermined thickness so as to maintain a closed state.

The insole having the air circulation structure of the present invention configured as described above is inserted into the inside of the shoe to generate air pressure by the pressure generated when the user walks, thereby circulating the air inside the shoe.

That is, when the rear portion of the sole applies pressure to the rear end of the insole, as shown in the direction of the arrow shown in FIG. 5, the valve 30 is bent toward the space portion 41 by air pressure to open the intake 11, 21 Accordingly, the air filled in the inlet 11, 21 and space 41 is absorbed by the rear end cushion portion 40 having a porous structure.

The air absorbed into the rear cushion portion 40 is sucked into the front cushion portion 42 through the air passage 25 by pressure and moves forward, and the front portion of the sole of the foot moves the front cushion portion 42. When compressed, air is discharged through the outlets 12 and 22, and the valve 30 closes the intakes 11 and 21 again by an elastic restoring force, thereby preventing backflow of air, which in turn causes air to flow inside the shoe. It is circulating.

This action occurs repeatedly as the user continues walking, and the function does not deteriorate even if it is used for a long time by the elastic restoring force of the rear end cushion portion 40 and the front end cushion portion 42 and the valve 30.

Therefore, the present invention, the valve 30 and the rear cushion portion 40 and the front cushion portion 42 acting by the air pressure generated during walking circulate the air inside the shoe to remove odor and moisture, thereby removing athlete's foot and eczema. It has the effect of preventing disease.

In addition, since the valve 30, the rear end cushion portion 40, and the front end cushion portion 42 are installed inside the air circulation portion 20, inflow of moisture and foreign substances is blocked, thereby extending the life.

In addition, the present invention has a more economical effect because the air circulation structure in the insole is made of a simple valve structure operated by pressurization, thereby reducing the manufacturing cost and product cost of the insole.

10: fabric portion 11: first inlet
12: first outlet 20: air circulation
21: 2nd inlet 22: 2nd outlet
23: rear end 24: leading end
25: air passage 26: engaging projection
30: valve 40: rear cushion portion
41: space portion 42: tip cushion portion
43: coupling hole

Claims (5)

A fabric portion 10 on which the first inlet 11 and the first outlet 12 are formed;
It is composed of a rear end portion 23 and a front end portion 24 connected by a plurality of air passages 25, and the rear end portion 23 is provided with a second suction port 21 communicating with the first suction port 11, , The tip portion 24 is configured to include an air circulation unit 20 having a second outlet 22 in communication with the first outlet 12;
Inside the rear end portion 23 and the front end portion 24, a rear end cushion portion 40 and a front end cushion portion 42 made of an urethane foam made of an elastic material having a porous structure are installed, respectively. The plurality of coupling protrusions 26 concavely formed so as to protrude inward on the bottom surface of the tip portion 24 is inserted into and fixed to the coupling hole 43 formed in the tip cushion portion 42,
A synthetic resin valve 30 having a predetermined thickness that seals the second suction port 21 by an elastic force is coupled to the lower side of the second suction port 21, and the second suction port 21 is connected to the rear cushion portion 40. The space part 41 which is in communication is formed,
When pressure is applied to the rear end of the insole and the valve 30 is bent toward the space portion 41, the second suction port 21 is opened, and the air absorbed through the opened portion is applied to the rear end cushion portion 40 having a porous structure. After being absorbed, the valve 30 is restored to its original position by an elastic restoring force so as to prevent backflow of air, thereby blocking the second intake port 21,
The air absorbed by the rear end cushion portion 40 is discharged through the second outlet 22 and the first outlet 12 through the air passage 25 and the front cushion portion 42 by the pressure during walking. Insole with air circulation structure. delete delete delete delete

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