KR20090076502A - The manufacturing metho -d of shoes having air vent and cushion - Google Patents

Abstract

Waterproofing footwear and a manufacturing method for the same are provided, which absorb impact more efficiently by changing the impact absorbent behavior according to the impact quantity. Waterproofing footwear comprises: an insole(10) in which a plurality of penetration holes(12) are equipped in the central part and the protrusion(11) is equipped through the entire region of the bottom surface; humidity transmission cloth(21) in which the edge part is welded and a midsole(22); a band(30) which is welded into the edge part upper of the mid sole and the humidity transmission cloth and is made of humidity transmission cloth. A waterproofing footwear manufacturing method comprises: a step of injecting the insole; a step of welding the edge part of the midsole; a step of welding the band; and a step of welding the band and the upper.

Description

Waterproofing shoes having a moisture-permeable and shock-absorbing structure and a manufacturing method

The present invention is provided with a plurality of downward projections and the upper and lower surfaces of the insole formed with a plurality of through-holes in the center as a moisture-permeable material, and then combined with a breathable moisture bootie, U-shaped air throughout the upper upper It relates to a waterproof shoe to form a flow passage.

As a result, proper load distribution is achieved and sweat is discharged smoothly, not only lowering the temperature of the entire floor, but also appropriately arranging shock absorption and resilience, so that the body is not overwhelmed even when worn for a long time. It relates to a waterproof shoe and a manufacturing method having a structure.

Shoes, which have been developed for a long time as people walked, developed rapidly with the development of various new materials along with the development of science and technology. Today, various shoes are suitable for various activities such as walking, mountain, body correction, and specific exercise. Shoes are being made.

In particular, as the importance of health has risen, sports shoes have made rapid progress, and new materials and structures have been continuously developed. However, in terms of physical health, the first thing to solve in terms of physical health is In addition, the more important in terms of physical health is cushioning, if the shoes are not well cushioned, you can easily feel the fatigue of the foot, and the impact of contact with the sole of the shoe and the ground is transmitted to the brain through the spinal cord, which is not good for the body. The shoes must have sufficient cushioning properties because they are known to wear.

Although the problem of cushioning has been solved in many parts by the development of various materials having excellent shock absorbing properties, it is not possible to solve all of the problems of cushioning by using only materials having excellent cushioning properties.

In other words, the cushioning properties of the shoes should be dependent on the magnitude of the impact force applied to the shoes. In the case of a simple walking or jogging shoe, the cushioning problem can be solved only by the soft and fluffy material, but such as basketball or volleyball In the case of sports shoes accompanied by movement and jump, it is not easy to solve the problem of cushioning by material alone.In the case of sports shoes, various cushion structures such as an air chamber are applied to the inside of the shoe sole and the cushioning material is excellent Is used in parallel.

That is, in almost all conventional shoes, the entire bottom of the sole is almost in contact with the floor, and the impact of contact between the sole and the sole of the shoe is transmitted to the brain through the rear end, the heel, and the spine of the bottom of the sole. Shoes with air cushions (Korean Patent Application No. 95-2742) or elastic bodies (Korean Patent Application No. 226048) have been developed. By combining the material with excellent cushioning to the heel portion of the shoe to improve the cushioning of the shoe to be transmitted to the brain to reduce as much as possible.

However, since the contact between the rear end and the bottom of the sole bottom of the shoe can not be avoided during walking, the fundamental impact caused by the contact of the rear end and the bottom of the sole bottom cannot be reduced.

In order to solve the problems of the conventional shoes as described above, having a simple structure does not reduce the production productivity, and the shock absorption behavior is changed according to the amount of impact so that the shock can be absorbed more efficiently, and the shock absorption with excellent restoring force Shoes with multiple flooring have been developed.

1 is a cross-sectional view of a shoe with multiple flooring according to the prior art.

As shown, multi-floor for shoes for shock absorption, the shoe sole (1) is provided with a plurality of recessed grooves (C) of the upward open type on the upper surface; At least one or more protruding plates (2) having a plurality of protrusions (E) inserted in correspondence with each of the recessed grooves C (1) downwardly protruding from the bottom surface thereof; It characterized in that it comprises a midsole (3) laminated on the upper surface of the sole (1) including the upper surface of the projection plate (2).

In the multiple flooring material for shoes for shock absorption of the conventional shoes having the above configuration, the sole 1 and the midsole 3 are opposite to each other in a state in which the sole 1, the projection board 2, and the midsole 3 are stacked. When the external load is applied to the outer sole, the sole 1 is compressed and absorbs the first load. As the sole 1 is compressed, the depth of the recessed groove C becomes shallower, so that the bottom of the protrusion 2 The lower end of the protruding protrusion E comes into contact with the bottom of the concave groove C.

That is, the sole 1 is compressed while pressing the upper surface of the sole 1 in close contact with the load distributed on the entire bottom surface of the protrusion 2 except for the protrusion E, and the lower end of the protrusion E is recessed groove ( The bottom of the recessed groove (C) additionally absorbs the load secondly while touching the bottom of C), while the protrusion (E) supports the protrusion (2) against the bottom of the recessed groove (C). The position can be kept stable while doing so.

However, in the structure in which a plurality of protrusions E, which are stacked on the shoe sole 1 and inserted in correspondence with each recess groove C, have a protrusion plate 2 protruding downward on the bottom, as described above, Although the cushioning properties have been improved, there is still a need for improvement in breathability, as well as waterproofness and moisture permeability that is easily discharged to the outside of the sweat generated from the soles have been required.

On the other hand, a method of manufacturing waterproof footwear for satisfying the moisture permeability as described above is disclosed in Korea Patent No. 666025, which also does not perform the sweat function in the insole is not particularly smooth discharge of sweat from the soles, The temperature of the entire floor can not but be increased, there is a problem that the body is difficult to wear when worn for a long time.

It is an object of the present invention to provide a waterproof shoe and a manufacturing method having a moisture permeable / impact-absorbing structure which allows the shock absorbing behavior to be changed according to the amount of impact, so that the shock absorbing behavior is changed more efficiently.

In addition, the present invention is to form a U-shaped air flow passage in the entire upper, and in particular to ensure that sweat is easily discharged through the floor, thereby lowering the temperature of the entire floor, even when worn for a long time Another object of the present invention is to provide a waterproof shoe and a manufacturing method having a moisture permeable and shock absorbing structure.

The above object of the present invention, after the upper and lower surfaces of the midsole is provided with a plurality of downward projections and a plurality of through holes formed in the center of the midsole as a moisture-permeable material, and combined with the moisture-permeable bootie, the entire upper inside of the upper (U) This is achieved by allowing the formation of a) -shaped airflow passage and at the same time allowing the sweat to escape easily, especially through the floor.

According to the present invention, by stacking the insole is provided with a plurality of downward projections on the upper surface of the elastic midsole and a plurality of through-holes in the center, absorbs the shock primarily in the midsole and the sole, the entire insole bottom except the protrusion As the distributed load presses the upper surface of the sole, the sole is compressed, and the lower end of the protrusion touches the upper surface of the midsole to further absorb the load secondly, so that the shock absorbing behavior is changed according to the amount of impact so that the shock is absorbed more efficiently. There is this.

In addition, the present invention is to form a U-shaped air flow path according to the use of the moisture-permeable material in the entire upper, in particular the air flow path is formed between the sole and the midsole by a plurality of downwardly formed, bottom By allowing the sweat to be easily discharged through, the temperature of the entire floor is lowered, and there is no effect on the body even when worn for a long time.

Water-resistant shoes having a moisture-permeable and shock-absorbing structure of the present invention, the waterproof shoe comprising a sole and an upper, the insole having a plurality of projections projecting downward and a plurality of through holes in the center; A moisture-permeable cloth and a midsole, in which edge portions are joined in a state of being stacked on upper and lower surfaces of the insole; It is bonded to the upper edge portion of the moisture-permeable cloth and the midsole, characterized in that configured to include a downward opening bouts made of a moisture-permeable cloth.

In addition, according to the present invention, a method of manufacturing a waterproof shoe having a moisture-permeable / impact-absorbing structure is, injecting the insole made of a synthetic resin material with a plurality of protrusions downwardly protruding downward from the bottom of the moisture-permeable cloth and having a plurality of through-holes in the center. Making a step; Stacking the insole on an upper surface of the midsole and bonding the edge of the moisture-permeable cloth and the midsole; Bonding a butt of a downward opening to the edge portion of the bonded moisture-permeable cloth and the midsole; It characterized in that it comprises a step of bonding the inside of the upper and the upper part of the water-permeable cloth and midsole combined, looking at each component as follows.

The insole of the waterproof shoe having the moisture permeation and shock absorption structure of the present invention is laminated on the upper surface of the midsole of the waterproof shoe of the present invention, and unlike the prior art insoles, proper load distribution is achieved and sweat discharge is smooth, and thus the temperature of the entire floor is improved. In addition to lowering, the shock absorbing and resilient elasticity is properly arranged so that the body is not overwhelmed even when worn for a long time.

That is, the insole of the present invention, since the material is made of synthetic resin, preferably produced by the injection process, a plurality of through-holes are formed in the center, sweat discharge through a plurality of through-holes of the bottom surface contacting the soles It acts to occur, by causing a plurality of protrusions to protrude downward, absorbs the impact primarily in the sole of the shoe, and the lower end of each of the plurality of projections to be pressed on the upper surface of the midsole, so that the impact is treated secondly, excellent shock absorption effect It is a structure to exert.

In addition, the water-permeable cloth of the waterproof shoes having the moisture-permeable / impact-absorbing structure of the present invention is a cloth having waterproofing and moisture-permeating function of various functional new materials such as Goa-Tex developed by Goa Corp. The sweat passes through the moisture-permeable cloth in direct contact with the sole, and then is discharged downward through a plurality of through holes formed in the insole.

In particular, the moisture-permeable cloth of the present invention is produced by integrally injecting the insole through the process of injecting a synthetic resin insole with a plurality of protrusions downward on the bottom surface and a plurality of through holes in the central portion integrally produced, Not only is the process simple to configure, it is also preferable because it can drastically reduce the time required for manufacturing.

In addition, the midsole of the waterproof shoe having a moisture-permeable and shock-absorbing structure of the present invention, the water-permeable cloth and the water-repellent cloth in a state in which a plurality of projections protrude downward on the bottom of the moisture-permeable cloth and are laminated on the bottom of the insole made of a synthetic resin material having a plurality of through-holes in the center. It is composed by joining the edge of the midsole together.

In this way, through the water-permeable cloth and the midsole spaced by a predetermined thickness up and down by the insole, the sweat generated from the sole is discharged downward, it is easily discharged to the outside through the booty of the moisture-permeable material, the temperature of the entire floor is lowered By doing so, even if worn for a long time, the effect does not overdo the body.

The bootie of the waterproof shoe having the moisture permeable / impact-absorbing structure of the present invention is downwardly open as a tabular member joined to the inner circumferential surface of the upper. As a cloth having, it is bonded to the upper edge of the moisture-permeable cloth and the midsole.

Accordingly, the downward opening of the water-permeable cloth and the upper portion of the midsole bonded to the upper edge forms an air passage in which the entire shape has a U-shape, whereby sweat is sufficiently discharged to the outside, thereby removing the shoe of the present invention. When worn, in addition to the impact relief by the protrusion provided on the bottom of the insole, it also exhibits a moisture permeation function to easily discharge sweat to the outside.

In addition, looking at the manufacturing method of waterproof shoes having a moisture-permeable and shock-absorbing structure according to the present invention, a plurality of projections projected downward on the bottom of the moisture-permeable cloth and injection injection of the synthetic resin material integrally provided with a plurality of through-holes in the center The step includes the steps of injection molding the insole in a single process; The process of bonding the moisture-permeable cloth to the upper surface is combined at the same time in a single manufacturing facility, and compared to the conventional technique of mutually bonding the moisture-permeable cloth and the insole, sweat through the moisture-permeable cloth through a through hole formed in the center of the insole. There is an advantage that can be discharged downward.

In the method for manufacturing a waterproof shoe having a moisture-permeable / impact-absorbing structure of the present invention, the step of laminating the insole on the upper surface of the second moisture-permeable cloth and joining the edge portion of the moisture-permeable cloth and the midsole is integrated with the insole in the previous step. As the joint of the edge of the injection-molded moisture-permeable cloth and the edge of the midsole is generally stitched by sewing with a sewing thread.

As described above, when the rim of the moisture-permeable cloth and the rim of the midsole are sewn by the sewing thread, external moisture penetrates through the pin hole generated in the sewing process, thereby reducing the waterproofing function. Where bonded, waterproofing tape (tape), it is preferable to waterproof.

In addition, in the method of manufacturing a waterproof shoe having a moisture-permeable / impact-absorbing structure of the present invention, the step of joining the bottom opening to the rim of the water-permeable cloth and the midsole bonded to each other is performed by sewing and waterproofing tape in the previous step. It is a process of joining the edge of the 'moisture-permeable + insole + midsole' assembly and the downwardly open edge of the boutique.

Therefore, as described above, the 'moisture cloth + insole + midsole' combination and the bootie are combined to form a U-shaped air flow passage as a whole inside the upper, so that the sweat generated inside the shoe prevents sweat generated from the sole of the foot. Including all are discharged out, there is an advantage to lower the temperature of the entire floor.

In the method for manufacturing a waterproof shoe having a moisture-permeable / impact-absorbing structure of the present invention, the step of joining the bootie combined with the moisture-permeable cloth and the midsole in the upper may include a combination of 'moisture-permeable cloth + insole + midsole + booties'. The inside of the armor is bonded to finish the production of waterproof shoes.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a waterproof shoe and a manufacturing method having a water vapor transmission and shock absorption structure according to the present invention will be described.

Figure 2 is a cross-sectional view of a waterproof shoe having a water vapor transmission and shock absorption structure according to the present invention, Figure 3 is an exploded perspective view showing the main configuration of the waterproof shoe having a water vapor transmission and shock absorption structure according to the present invention.

As shown, the waterproof shoes having a moisture-permeable and shock-absorbing structure, the waterproof shoes comprising a sole and the upper, the upper (U) is coupled to the sole (O) is stacked in the midsole (I) on the upper side; An insole 10 stacked on the midsole I and having a plurality of protrusions 11 protruding downward and having a plurality of through holes 12 in a central portion thereof; A moisture-permeable cloth 21 and a midsole 22 to which an edge portion E is bonded while the upper and lower surfaces of the insole 10 are wrapped; Bonded to the upper edge portion (E) of the moisture-permeable cloth (21) and the midsole 22, and includes a downward opening booty 30 made of a moisture-permeable cloth, the edge of the moisture-permeable cloth (21) and the midsole (22) (E) The said buttress 30 joined to the upper side is comprised by joining in upper U. As shown in FIG.

In particular, in the waterproof shoes having the present invention moisture permeation and shock absorption structure, the insole 10 is a plate-like, a plurality of through-holes 12 are formed in the entire central portion excluding the edge portion, a plurality of projections 11 on the bottom surface Is projected downward, when wearing the shoe according to the present invention by generating a gap corresponding to the height of the protrusion of the protrusion 11, the structure through which the sweat can be discharged through a plurality of through-holes 12 formed in the center portion Achieve.

Therefore, the moisture-permeable cloth 21, the midsole 22 and the booth 30 is made of a material having a waterproof and moisture-permeable function of the various functional new materials, such as Goatex, the sewing portion is bonded to the edge portion The waterproof tape is complemented to maintain the waterproof function.

Unexplained symbol O is the sole.

Figure 4 is a schematic diagram showing the water vapor transmission process according to the waterproof shoes having the present invention water vapor transmission and shock absorption structure.

As shown, the waterproof shoe wearer of the present invention walking or walking for a long time in the state put the foot in the 'first moisture-permeable cloth 21 + insole 10 + midsole 22 + booty 30' bonded to the inside of the upper In the situation of being exposed to water, such as in the rain or in the rain, the external moisture is blocked by the waterproof long of the moisture-permeable cloth and the sweat generated inside by the moisture-permeable function is released to the outside.

That is, the sweat generated through the ankle and the instep is discharged through the booty, and the sweat generated from the sole is released through the 'first moisture-permeable cloth (21) + insole (10) + midsole (22)', The first moisture-permeable cloth (21) + insole (10) + midsole (22) + booty (30) 'is discharged to the outside through the U-shaped air flow passage formed by the assembly.

In addition, in the method of manufacturing a waterproof shoe having a moisture-permeable / impact-absorbing structure, a water-permeable cloth (21) having a synthetic resin insole (10) having a plurality of protrusions (11) protruding downward and having a plurality of through holes (12) in the center thereof. Injection step integrally with the step (S 10); Stacking the 'moisture-permeable cloth (21) + insole (10)' assembly on the upper surface of the midsole (22), and bonding the edges of the moisture-permeable cloth (21) and the midsole (22); Bonding the edges of the bonded 'moisture-permeable cloth (21) + insole (10) + midsole (22)' body and the lower openings (30) to each other (S30); The upper (U) is configured to include a step (S40) for joining the 'moisture-permeable cloth 21 + insole 10 + midsole 22 + boutique 30'.

1 is a cross-sectional view of a shoe with multiple flooring according to the prior art.

2 is a cross-sectional view of a waterproof shoe having a water vapor transmission and shock absorption structure according to the present invention.

Figure 3 is an exploded perspective view showing the main configuration of the waterproof shoes having the present invention moisture-permeable shock absorption structure.

Figure 4 is a schematic diagram showing the water vapor transmission process according to the waterproof shoes having the present invention water vapor transmission and shock absorption structure.

           <Description of Symbols for Main Parts of Drawings>

10 insole 11 protrusion 12 through hole

21: first moisture cloth 22: midsole 30: upper

U: upper

Claims (4)

An insole 10 provided with protrusions 11 over the entire area of the bottom surface and having a plurality of through holes 12 in the center thereof; A moisture-permeable cloth (21) and a midsole (22) to which an edge (E) is bonded in a state of being laminated on the upper and lower surfaces of the insole (10), respectively; Waterproof shoes having a moisture-permeable / impact-absorbing structure, which is bonded to the upper edge portion E of the moisture-permeable cloth 21 and the midsole 22, and comprises a downwardly-opened booty 30 made of the moisture-permeable cloth. . The method of claim 1, The insole 10 is a waterproof resin having a moisture-permeable, shock-absorbing structure, characterized in that the injection molded integrally to the bottom surface of the moisture-permeable cloth (21) as a synthetic resin material. The method of claim 1, The rim and booties 30 of the moisture-permeable cloth 21 and the midsole 22 are stitched and bonded, and then bonded and treated with a waterproof tape. A step (S10) of integrally injecting the insole 10 made of a synthetic resin material having a plurality of protrusions 11 protruding downward and a plurality of through holes 12 in a central portion of the bottom of the moisture-permeable cloth 21; Stacking the insole 10 on an upper surface of the midsole 22 and bonding the edges of the moisture-permeable cloth 21 and the midsole 22 (S20); Bonding the watertight cloth (30) of the downward opening to the edge portion of the bonded moisture-permeable cloth (21) and the midsole (22); Manufacturing the waterproof shoes having a moisture-permeable shock-absorbing structure, characterized in that it comprises a step (S40) for bonding the boot 30 (30) to which the moisture-permeable cloth (21) and the midsole (22) are combined. Way.

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