KR20050030196A - Shoe with shock absorption and airing function and their manufacturing method - Google Patents

Abstract

A shoe with shock absorption and airing functions and a method of manufacturing the same are provided to make an external fresh air inflow into the shoe when walking or running with the shoe being worn. The manufacturing method comprises the steps of: forming an air bag(110) having an air inflow conduit and an air outflow conduit; introducing the air bag into a mold and throwing liquid poly-urethane into the mold to surround an external surface of the air bag, thereby forming an elastic body(100); combining an auxiliary frame to an external surface of the elastic body; and introducing a processed out-sole(300) in a lower mold, combining the auxiliary frame to an upper surface of the lower mold, throwing liquid poly-urethane into the mold, positioning an upper having a shoetree combined to the upper surface of the elastic body to combine with an upper mold, and then foaming the liquid poly-urethane to form an elastic sole(500).

Description

Shoes with shock absorption and airing function and their manufacturing method

The present invention relates to a shock-absorbing breathable shoe, and more particularly, by forming an elastic window with a built-in airbag separately between the upper and the outsole, when the shoe contacts the ground, the elastic window flows elastically and at the same time The present invention relates to an integrated shock-absorbing breathable shoe and a method for manufacturing the same, which are expanded / contracted to relieve impact from the ground at the same time the fresh air is introduced into the shoe.

In general, when shoes are worn for a long time, the feet become sweaty and the inside of the shoes become sweaty, and the fungus, such as mold, inhabits the feet, causing the smell of so-called foot odor from the feet. Will give. Severe cases also cause athlete's foot.

Therefore, there is a need for a shoe that introduces fresh outside air into the shoe so as not to sweat from the foot.

In view of the above, the prior arts are introduced, and a shoe having an air vent is introduced in the Utility Model Registration No. 327676 registered by the Korean Patent Office. In the prior art, it is possible for the fresh air to flow in and out of the shoe, but it is somewhat insufficient in terms of shock absorption.

In order to solve the above deficiency, the applicant applied for a shock-absorbing combined ventilation shoe, and the prior art is introduced in Korean Patent Office Registration No. 341100.

The prior art, as shown in Figure 1, the upper 100, the sole 110 consisting of the midsole 111 and the outsole 112, and formed in the front of the upper 100 and at the same time the outside air flows in In the shoe composed of an air inlet member 120 is formed in the air inlet flow path is formed in the sole 110, the air flows in communication with the air inlet flows through the air inlet flows A first air flow path 130; It is installed between the midsole 111 and the outsole 112 of the rear portion of the sole 110, elastically up and down by external pressure to absorb the impact force and at the same time between the outsole 112 and the midsole 111 An elastic member 190 forming a pump space communicating with the first air flow path 130; The air is formed inside the sole 110, is connected to the pump space is formed, the through-hole communicating with the upper 100 is formed by the compression of the elastic member 190 is the upper 100 And a second air flow passage 140 flowing inwardly.

However, the prior art separately forms the first and second recessed spaces 170 and 180 on the outsole 112 and the midsole 111, and separately the first and second recessed spaces 170 and 180. By forming the elastic member 190 to be the pump space, the amount of air introduced into the upper inside is insufficient because only the amount of air received in the upper portion of the pump space formed by the elastic member 190 flows into the upper side.

In addition, in order to increase the amount of air introduced into the upper, it is necessary to increase the volume of the pump space formed by the elastic member.

In addition, the elastic member may be damaged by an external impact, especially a sharp object.

Accordingly, the present invention has been made to solve the problems of the prior art, to provide an integrated shock-absorbing breathable shoes and a method of manufacturing the fresh air of the outside continuously flowing into the shoe when walking or running shoes. For the purpose of

It is also an object of the present invention to provide an integrated shock-absorbing breathable shoe and a method of manufacturing the same, in which the shoe is absorbed by being elastically flown when the shoe is grounded.

In addition, an object of the present invention is to provide an integrated shock absorbing breathable shoe and a method for manufacturing the same, which can protect the damage of the airbag by an external sharp object and at the same time perform the shock absorbing function and the breathable function.

On the other hand, the elastic bag is formed between the upper and the outsole so that the air bag is built-in, and the same size as the outer periphery of the upper and the outsole is exposed. It is an object of the present invention to provide an integrated shock absorbing breathable shoes and a method of manufacturing the same that is introduced and at the same time mitigate the impact with the ground.

The present invention for achieving the above object is an air bag forming step of forming an air bag formed with the air inlet pipe and the air outlet pipe; An elastic body forming step of injecting the airbag into a mold and then injecting a liquid polyurethane into the mold to surround the outer surface of the airbag to form an elastic body; An auxiliary mold coupling step of coupling an auxiliary mold to an outer surface of the elastic body; Insert the processed outsole into the lower mold, combine the auxiliary mold coupled with the elastic body on the upper surface of the lower mold, inject the polyurethane liquid into the mold, and place the upper with the new bone coupled to the upper surface of the elastic body. After combining, the polyurethane foaming step of foaming the polyurethane liquid to form an elastic window; including, the method of manufacturing an integrated shock-absorbing breathable shoe that is formed integrally coupled between the outsole and the upper as a technical gist do.

Here, the air inlet pipe is connected to the outside of the upper, the first check valve is installed to flow the outside air only in one direction of the elastic body side, the air outlet pipe is connected to the inside of the upper, the air inside the upper It is preferable that a second check valve is provided to flow only inside.

And the present invention, in the shoe is formed on the top of the shoe and the upper receiving the foot, and the outsole is formed on the bottom surface of the shoe in contact with the ground, formed between the upper and the outsole, the foam by being molded An elastic window formed between the upper and the outsole; And an elastic body formed inside the elastic window and having an air bag formed with an air inlet pipe and an air outlet pipe, wherein the air inlet pipe is connected to the outside of the upper, and the air outlet pipe is connected to the inside of the upper. An integrated shock-absorbing breathable shoe composed of

Here, the air bag is formed of an elastic body by wrapping the outer surface of the polyurethane, the air inlet pipe is provided with a first check valve for flowing external air only in one direction on the elastic body side, the air outlet pipe It is preferable that a second check valve is provided for flowing air inside the elastic body only to the inner side of the upper.

Accordingly, when walking or running with shoes, fresh air from the outside is continuously introduced into the shoes, and the shoes are elastically flowed to absorb shocks and at the same time prevent damage to the airbags by external sharp objects. The elastic window is integrally foam bonded to the upper and the outsole, so that the adhesion is firm.

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

Figure 2 is a perspective view and a cross-sectional view of the airbag according to the present invention, Figure 3 is a view showing a shape in which the polyurethane fluid is injected into the mold installed in the airbag according to the present invention and a cross-sectional view thereof, Figure 4 is a shape of the elastic body 5 is a perspective view and a cross-sectional view of the auxiliary mold, Figure 6 is a perspective view and a cross-sectional view of the auxiliary mold coupled to the elastic body, Figure 7 is a process chart showing a polyurethane foaming process, Figure 8 is a 9 is a perspective view of an integrated shock absorbing breathable shoe having an air inlet tube and an air outlet tube according to the present invention, and FIG. 9 is a longitudinal sectional view of a main portion showing the shape of the shoe during inflation / contraction.

As shown, the method of manufacturing a shock-absorbing breathable shoe according to an embodiment of the present invention is largely composed of an airbag forming step, an elastic body forming step, an auxiliary mold coupling step, and a polyurethane foaming step.

First, the airbag forming step will be described.

As shown in FIG. 2, in the airbag forming step, air is filled in the inside, and the airbag 110 having the air inlet pipe 111 and the air outlet pipe 112 is formed outside. And the ends of the air outlet pipe 112 and the air inlet pipe 111 of the air bag 110 is prepared to be in a sealed state by thermal compression, the pressure inside the air bag is maintained above the atmospheric pressure.

Here, the air inlet pipe 111 is removed after the shoe is completed, the sealed portion is connected to the upper 200, the air outlet pipe 112 is removed after the shoe is completed and sealed It is connected to the outer side of the upper 200.

In addition, the air inlet pipe 111 is provided with a first check valve 113 to allow the outside air to flow only in one direction of the air bag 110 side, the air outlet pipe 112, the air bag 110 A second check valve 114 is installed to flow only in one direction of the inner side of the upper 200 from the side.

Next, as the elastic body forming step is performed, the airbag 110 is injected into the mold as shown in FIG. 3, and the liquid polyurethane liquid is introduced into the mold to foam.

When the above process, as shown in Figure 4, the outer surface of the airbag 110 is formed an elastic body 100 is wrapped with a foamed polyurethane layer 120. In addition, a through hole 101 penetrated up and down is formed at the center of the elastic body 100.

Here, the foamed polyurethane layer 120 surrounding the outer surface of the airbag 110 prevents damage to the airbag 110 and at the same time serves as a shock absorbing function.

Next, as the auxiliary mold coupling step is performed, an auxiliary mold 130 formed of a rubber material having high elasticity and hardness as shown in FIG. 5 is separately prepared, and the auxiliary mold 130 is formed as shown in FIG. It is good to couple to the side of 100).

The auxiliary frame 130 is such that the elastic body 100 is coupled between the upper 200 and the outsole 300 so that the shape of the elastic body 100 is not crushed even when polyurethane is foamed, and is coupled at the same time. The auxiliary mold 130 has a plurality of through holes 131 penetrated up and down, and the protruding pins 401 of the lower mold 400 to be described later. Is coupled to the auxiliary mold 130 to be stably coupled to the lower mold 400 to be described later.

Next, the polyurethane foaming step is performed. First, the separately prepared outsole 300 is injected into the lower mold 400 as shown in FIG. Then, as shown in FIG. 7 (b), the elastic body 100 is coupled to the lower mold 400 by placing the elastic body 100 to which the auxiliary mold 400 is coupled to the upper surface of the outsole 300. . At this time, the protruding pin 401 of the lower mold 400 and the through-hole 131 of the auxiliary mold 130 are coupled to the auxiliary mold 130 is stably coupled to a predetermined position of the lower mold 400.

Next, as shown in Figure 7 (c), prepare the upper 200 is coupled to the upper mold 410 in which the inner bone is coupled to the inner mold is cut in the form. That is, the upper 200 is coupled to prepare an upper mold 410, the center portion of which is open to the left and right.

Then, the upper mold 410 is located on the upper surface of the lower mold 400 as shown in Figure 7 (d) and then the upper 200 and the outsole 300 by foaming the polyurethane liquid injected into the mold. The shoe is formed between the elastic window 500 is completed. Here, the elastic window 500 serves to assist the contraction / expansion of the elastic body 100 and the airbag 110 to be smooth, and in particular, the pillar portion formed in the through hole 101 of the elastic body 100. 501 provides the original recovery force when the airbag 110 is contracted and then restored.

In more detail, when the hardness of the polyurethane layer 120 surrounding the airbag 110 is about 40 to 50 degrees, and the hardness of the elastic window 500 including the pillar portion 501 is about 55 to 60 In addition, the elastic window 500 including the pillar portion 501 prevents excessive shrinkage of the airbag 110 and at the same time assists the original recovery of the airbag 110.

The shoe completed by the above process is completed, the air bag 110 of the elastic body 100 is a pump space in which air flows, the air bag 110 is a polyurethane layer 120 and the elastic window 500 By being wrapped) it is possible to absorb shock and at the same time protect the airbag 110 when in contact with sharp objects.

The operation effect by the above configuration is as described later.

Shoes of the present invention, as shown in Figure 8 and 9, is configured in the form formed with an elastic window 500 that is elastically flow between the upper 200 and the outsole 300, the elastic window 500 An elastic body 100 having an air bag 110 formed therein is formed therein, and the air bag 110 itself is contracted / expanded by an external pressure to absorb an impact.

In addition, as described above, when the shoe is bonded to the ground, the airbag 110 contracts the elastic window 500 and at the same time, the air inside the airbag 110 is provided with the air outlet pipe 112 and the second check valve 114. Through) is transmitted in one direction inside the upper 200.

In addition, when the shoe falls off the ground, the elastic window 500 is inflated and at the same time the air bag 110 is inflated, and outside fresh air is introduced through the air inlet pipe 111 and the first check valve 113. It is introduced into the airbag 110.

That is, the air introduced into the air bag 110 through the air inlet pipe 111 is configured to continuously introduce fresh outside air into the shoe in such a manner that the air 200 flows into the upper 200 through the air outlet pipe 112. It is

The embodiment of the present invention described above, the upper window 200 and the outsole 300 in a manner to form an elastic window 500 through the polyurethane foam between the upper 200 and the outsole 300 elastic window 500 ) Is combined with a single process, it is suitable for the manufacture of shoes that require a simple process and safety, such as safety shoes, because no bonding process is required.

As mentioned above, although the preferred embodiment of the present invention has been limitedly described, the present invention is not limited thereto and can be applied to the applicable part.

The present invention by the above configuration has the effect that the fresh air from the outside continuously flowing into the shoe when walking or running shoes.

In addition, when the shoes are grounded with the ground, the shoes are elastically flowed to thereby absorb the impact.

In addition, there is an effect that can protect the damage of the elastic window by the external sharp object and at the same time can perform the shock absorbing function and breathable function.

Meanwhile, a separate elastic window is formed between the upper and the outsole so that the pump space is formed, and is exposed to the same size as the outer periphery of the upper and the outsole. When the shoe contacts the ground, the elastic window flows elastically into the shoe. At the same time as the fresh air from the outside is introduced, the impact on the ground is alleviated.

Fig. 2-A perspective view and a cross sectional view along line A-A of an airbag according to the present invention.

3 is a cross-sectional view taken along line A-A showing a shape in which a polyurethane liquid is introduced and foamed into a mold having an air bag according to the present invention;

4 is a view showing the shape of the elastic body and cross-sectional views taken along lines A-A and B-B.

Fig. 5-A perspective view and section A-A of the auxiliary mold;

Fig. 6-A perspective view and a cross sectional view along line A-A of the auxiliary mold in which the elastic body is coupled.

7 is a process chart showing a polyurethane foaming process,

Fig. 7 (a)-is a lower mold and a cross-sectional view of the lower mold to which the outsole and the outsole are mounted;

Fig. 7 (b)-is a cross-sectional view along the line A-A and the shape where the auxiliary mold is installed on the upper surface of the lower mold;

Figure 7 (c)-upper mold and A-A cross-sectional view with the upper coupled,

Fig. 7 (d)-A-A cross sectional view of the upper mold coupled to the lower mold.

8 is a perspective view of the integrated shock-absorbing breathable shoe formed with the air inlet pipe and the air outlet pipe according to the present invention.

9 is a longitudinal sectional view of the main portion showing the shape of the shoe during expansion / contraction according to the present invention;

<Description of Symbols for Major Parts of Drawings>

100: elastic body 101: through hole

110: air bag 111: air inlet pipe

112: air outlet pipe 113: first check valve

114: second check valve 120: polyurethane layer

130: auxiliary frame 131: through hole

200: upper 300: outsole

400: lower mold 401: protruding pin

410: upper mold 500: elastic window

501: pillar

Claims (5)

An air bag forming step of forming an air bag having an air inlet pipe and an air outlet pipe formed therein; An elastic body forming step of injecting the airbag into a mold and then injecting a liquid polyurethane into the mold to surround the outer surface of the airbag to form an elastic body; An auxiliary mold coupling step of coupling an auxiliary mold to an outer surface of the elastic body; Insert the processed outsole into the lower mold, combine the auxiliary mold coupled with the elastic body on the upper surface of the lower mold, inject the polyurethane liquid into the mold, and place the upper with the new bone coupled to the upper surface of the elastic body. After the bonding, the polyurethane foaming step of foaming the polyurethane liquid to form an elastic window; comprising, wherein the elastic sole is integrally formed and coupled between the outsole and the upper. According to claim 1, The air inlet pipe is connected to the outer upper, the first check valve for flowing the outside air only in one direction on the elastic body side is provided, The air outlet pipe is connected to the inside of the upper, the method of manufacturing an integrated shock-absorbing breathable shoe, characterized in that the second check valve is installed to flow the air inside the elastic body only the upper side. In the shoe formed in the upper portion of the shoe and the upper receiving the foot, and the outsole formed on the bottom surface of the shoe and in contact with the ground, An elastic window that is formed between the upper and the outsole and is formed between the upper and the outsole by being foamed; And, It is formed inside the elastic window, the air inlet tube and the air outlet tube is formed in the air bag, the air inlet pipe is connected to the outside of the upper, the air outlet pipe is an elastic body formed to be connected to the upper; Integrated shock-absorbing breathable shoes, characterized in that. The unitary shock absorbing breathable shoe according to claim 3, wherein the airbag is formed of an elastic body by wrapping the outer surface of the airbag with polyurethane. The method according to claim 3 or 4, The air inlet pipe is provided with a first check valve for flowing external air only in one direction on the elastic body side, The air outlet pipe is integrated shock-absorbing breathable shoes, characterized in that the second check valve is installed to flow the air inside the elastic body only in the upper side.