KR200261025Y1 - Air circulation insole - Google Patents

Abstract

The air circulation insole according to the present invention is formed by the press molding of the soft pump chamber harpy, so that the pump chamber, the air inlet port, and the air discharge part are formed. The cut line of various dimensions according to the size is described, so that the shoes can be easily inserted and all parts are assembled by heat compression with the pump room epithelium.

With this feature, regardless of the shape of the user's foot and the size of the foot, anyone can use it as a single item, so it is possible to obtain economic benefits and convenience by producing a single breed.

Description

Air circulation insole

The present invention relates to an air circulation insole that circulates air in shoes by forcibly inhaling and discharging air. More specifically, the present invention relates to sweat and moisture in shoes by inserting them into the shoes to force circulation of the air in the shoes. It prevents odor or athlete's foot caused by walking, absorbs shock when walking, protects central nerve, gives comfortable walking feeling to pedestrians, and the structure of air circulation mechanism that circulates air is very simple, making it easy to manufacture. It is about an air circulation insole that can be done.

Conventional shoes have been proposed in various ways to induce forced ventilation, these proposals are mostly the structure to change the structure of the shoes to ventilate the air, the change of the structure of the shoe is a manufacturing cost by adding a number of work processes in the shoe manufacturing process There was a problem that is elevated. Korean Patent Application No. 28554 "Air circulation insole and its manufacturing method" invented by the present applicant to solve this problem, as shown in Figure 6, a one-way valve is used as the air intake and discharge valves The air intake and discharge valves are installed by changing only one-way valves having the same configuration.

The configuration of the air intake and discharge valves includes a check rubber 21 for imparting a one-way flow to the outer cavity 20 formed of hard plastic and having a passage of one-way flow on the top surface of the check rubber 21. The check rubber 21 is fixed by inserting the inner hollow shaft 23 formed of hard plastic onto the outer hollow shaft 20 having the cut slit 22 and the check rubber 21 inserted therein. This is done.

In the conventional invention in which an air intake and discharge valve having such a configuration is used, not only the parts forming and assembling process of the air intake and discharge valves are required, but also the hard materials are used, so that the foot is walking in accordance with the shape of the foot of the pedestrian. Slicing is inconvenient, and in order to solve such inconveniences, various embodiments must be made according to the optimum conditions of the air intake and discharge valve arrangements, and springs are installed to secure a subsequent air flow path to the air intake and discharge valves. There is a problem that the manufacturing process of the complex.

In addition, since the polyurethane material, which is a flexible material that imparts the function of the pump chamber, occupies a portion of the sole which is in contact with the rest of the sole except for the pump chamber, the conventional invention is not only easy to insert into the shoe according to the size of the foot because of the large material cost and the volume. There is a problem.

Due to these problems, the conventional invention has not solved the problem of increasing the production cost due to the increase of manufacturing cost because of the production process of multi-products due to many manufacturing process steps, high material costs, and difficulty in standardizing the manufacturing process.

An object of the present invention is to solve such a problem, and to reduce the volume of the portion other than the pump chamber by inserting a sponge, which is an elastic material, in the pump chamber to reduce the volume in the latter part to perform the function of the air pump. It is small in volume and has an extended bottom plate attached to the size of the foot in the first half to provide an air circulation insole having good walking comfort and functioning regardless of the size of the foot.

Another object of the present invention is to provide a soft air intake valve and air outlet valve air flow passage to improve the comfort of walking by placing a soft air inlet and outlet to solve the inconvenience of the spring to the foot To provide insoles.

Another object of the present invention is an air inlet valve and an air outlet valve in a manufacturing process. In order to solve the manufacturing difficulties of installing airflow passage securing springs, the manufacturing process is achieved by press molding the pump chamber, the air suction chamber and the air discharge chamber to the pump chamber bottom by heating and pressing the pump chamber epithelium. To provide insoles.

The purpose of the present invention is to press-mold the pump chamber, the air suction chamber, and the air discharge chamber into the soft pump chamber harp, inserting a sponge, which is a stretchable material, into the pump chamber, and pressurizing the pump chamber epithelium with air suction valve, air discharge valve, and air flow. Instead of installing the securing spring, the volume is reduced, and it consists of a soft air suction chamber and an air discharge chamber that communicate with the pump chamber, thereby eliminating the inconvenience of cutting on the foot during walking. The low cost insole can be achieved by the centralized air circulation insole according to the present invention.

With reference to the accompanying drawings, the air circulation insole according to the present invention will be clearly understood its features and advantages by the embodiments described in detail below.

1 is a perspective view of the combined air circulation insole according to the present invention.

Figure 2 is a bottom coupled perspective view of the air circulation insole according to the present invention.

Figure 3 is an exploded perspective view of the air circulation insole according to the present invention.

4 is a view showing an air circulation process according to the present invention.

Figure 5 is a partially enlarged cross-sectional view showing an air intake air suction process of the present invention.

Figure 6 is a partially enlarged cross-sectional view showing the air discharge process of the air discharge unit of the present invention.

7 is a cross-sectional view of an air intake and discharge valve installed in a conventional air circulation insole.

* Description of the symbols for the main parts of the drawings *

1.Pump unit 2.Extension bottom plate 3.Pump chamber

4.Pump chamber epithelium 5.Pump chamber harpy 6.Sponge

7.Air intake 8.Intake 9.Reflow prevention film

10.Suction path 11.Air outlet 12.Exhaust pipe

13.Outlet nozzle 14.Outlet tube top cover 15.Outlet tube bottom cover

16.Air inlet 17.Pump top cover 18.Cutting line

19.Bending part

As shown in Figure 1, the air circulation insole according to the embodiment of the present invention is connected to the pump device (1) where the heel is located and the extension bottom plate (2) is connected to the pump device (1) and the first half of the foot is located It consists of.

As shown in FIG. 3, the pump device 1 is formed by heat compression of the upper and lower skins 4 and 5 of the pump chamber, and a sponge 6, which is a porous stretchable material, is built into the pump chamber 3. do.

An inlet port (8) in front of the pump chamber (3) is formed in communication with the pump chamber (3) to intake air to intake air into the air inlet (7). The suction port 8 is configured to be connected to the backflow prevention film 9 and the suction path 10 which is fixed by the heat compression of the pump chamber epithelium 4 and the lower skin 5 and the suction pump chamber 3.

The air discharge part 11 is formed in communication with the pump chamber 3 by the heat compression of the pump chamber epithelium 4 and the lower skin 5 next to the air intake part 7. The discharge pipe 12 is connected to the end.

The injection hole 13 is drilled to a portion where the toe near the end of the discharge pipe 12 is positioned, and the discharge pipe upper cover 14 and the discharge pipe lower cover 15 are adhered to the discharge pipe 12.

At the position of the injection hole 13 disposed below the discharge pipe upper cover 14, there is an air inlet 16 which is an inflow direction of the air circulation inside the shoe, and the pump device upper cover 17 is bonded onto the pump device 1. It has a structure, and the cut line 18 of various dimensions is described on the discharge pipe lower cover 15 so as to be cut according to the size of the foot.

The detailed structure and function of the air circulation insole according to the present invention having such a structure will be described in detail below.

As shown in Figs. 4 and 5, the air intake portion 7 is press-formed into the pump chamber bottom, and the air intake portion 7 has a large inlet passage area and a narrow intake passage 10 area which is an outlet passage. At the suction end of the air intake part 7, a backflow prevention film 9, which is made of two layers of flexible material, having an inlet and an outlet direction open so as to be an intake passage of air, is introduced. About half of the suction port 8 is inserted into the inlet surface of 9), and the inlet end of the backflow prevention film 9 is heated and compressed together with the pump chamber epithelium 4 and the pump chamber harpy 5 to be fixed.

The function of the air suction unit 7 is, as shown in Figs. 4 and 5, when the pump device (1) contracts, the air in the pump chamber (3) through the suction path (10) The inflow back flows into the air intake part 7, and the backflow to the outside of the air intake part 7 is blocked by the close contact structure of the outlet of the backflow prevention layer 9, and when the density increases with the inflow backflow air, the backflow The pressure on the prevention film 9 is applied to keep the airtightness more firmly.

On the contrary, when the pump device 1 is restored, air is introduced through the intake port 8 to restore the original volume by the volume restored from the contraction, which is introduced into the intake port 8 by the amount corresponding to the restoration volume. Air penetrates through the outlet side of the backflow prevention film 9 and flows in.

As shown in FIG. 4, the air discharge part 11 is press-molded in the form of a reduced tube in the air discharge direction to the pump chamber harpy 5, and the discharge pipe 12 is heat-compressed at the end, as shown in FIG. As described above, a bent portion 19 is formed in the pump chamber lower shell 5 constituting the air discharge unit 11 and is molded in a state in which the pump chamber upper shell 4 is in close contact with the pump chamber epithelium 4.

The function of the air discharge unit 11 is, as shown in Figure 4 and 6, when the pump device 1 is contracted, the air in the pump chamber 3 is discharged to the injection port 13, The speed is increased while passing through the air discharge portion 11 of the narrow tube structure toward the above-described outlet direction of the air flowing into the air discharge portion 11 and the close contact with the pump chamber epithelium 4 by the increased speed energy The bent portion 19 is extended and passed through, and the passed air flows out of the injection hole 13 through the discharge pipe 12.

On the contrary, when the pump device (1) is restored, the air intake (7) and the intake (8). Compared to the air intake device composed of the backflow prevention film 9, the intake loss head of the air discharge device composed of the air discharge unit 11, the discharge section 12, and the injection port 13 is relatively large, so that the injection port 13 As a result of the inlet loss of the air outlet 11, the loss of friction due to the length of the outlet pipe 12 and the air outlet 11 toward the pump chamber 3 are expanded. There is a speed loss, and there is a blockage by the bent portion 19 in close contact with the epithelium to prevent backflow.

The air circulation insole having the structure and function of the air suction unit 7 and the air discharge unit 11 sucks air from the suction opening 8 when the foot falls from the ground during walking. When the pedestrian weight is loaded on the ground and the pedestrian weight is loaded, the air ejected from the injection hole 13 located between the toes flows into the air inlet 15 and circulation is performed without the air stagnated in the shoe.

As described above, the air circulation insole according to the present invention has a cut-out size according to the size of the butt and the foot, so that the user can use it conveniently. Since the part is molded at the same time, the user can feel comfort without any inconvenience to the foot when walking. In addition, in the manufacturing process, the press molding and the components described above are placed in the pump chamber lower skin, and the positive compression of the pump device is completed by heat compression with the pump chamber epithelium. It is designed to reduce the production cost by mass production of small items by allowing the centralization of the process without the need to disperse the process according to the shape and size of the user's foot as the base of the use dimension.

Claims (1)

In the latter part, the pump device is connected to the pump device at the position where the heel is located, and an extension bottom plate is formed in which the perforation line of various dimensions is written according to the size of the user's foot where the first part of the foot is located. And it is made of the heat compression of the harpy, a porous elastic material sponge is built into the pump chamber, the front of the pump chamber is in communication with the pump chamber is formed in the air inlet for sucking the air, the air inlet is an air inlet, The suction port is connected to the suction port and is connected to the pump chamber and the suction port is connected to the pump chamber. The air discharge unit is connected to the air chamber by the heat compression of the pump chamber epithelium and the harpy. Is formed in communication with the bent portion is formed in the middle of the air discharge Air circulation insole, characterized in that the outlet is formed.