KR200401231Y1 - Structure of middle layer of shore sole - Google Patents

Abstract

The present invention relates to a shock absorbing structure of a shoe midsole to be bonded with an adhesive by inserting an elastic buffer in the insertion hole formed at a predetermined position of the heel contact portion of the body of the midsole placed between the sole and the insole, and more specifically It is formed integrally with the upper surface of the buffer portion, and includes a buffer surface of a predetermined thickness adhered to the entire upper surface of the body of the midsole.

Therefore, the insertion hole is drilled in the vicinity of the contact portion of the body, the cushioning portion is inserted into the insertion hole is excellent in the bending force of the contact portion when the user walks or runs after wearing the shoes, as well as reducing the fatigue of the foot, elastic cushioning on the front of the body of the midsole By adhering the cotton, the recovery of the midsole is restored and the recovery degree is further increased to prevent the deformation of the shoe. The shock transmitted to the sole by the user's weight is absorbed and dispersed by the cushioning surface as well as the cushioning surface, thereby reducing the wearer's fatigue. Not only can it reduce, but by shaping the body with charcoal, the far-infrared rays are generated from this charcoal, causing antibacterial effect, and the discomfort caused by the smell of high humidity. It maintains humidity and is effective in cold hands and feet, chronic fatigue, and blood circulation disorders. In addition, it provides a shock-absorbing structure of the midsole for shoes that can prevent the oxidation of the foot by the anion is generated.

Description

Impact absorbing structure of midsole for shoes {Structure of middle layer of shore sole}

The present invention relates to a shock-absorbing structure of the midsole for shoes to be bonded to the adhesive by inserting the elastic buffer in the insertion hole formed at the predetermined position of the heel contact portion of the body of the midsole placed between the sole and the insole, in particular, the buffer It is formed integrally with the upper surface of the part, and by including a buffer surface of a predetermined thickness adhered to the entire upper surface of the body of the midsole, the insertion hole is drilled near the contact portion of the body, and the user inserts the shoe after the cushioning portion is inserted into the insertion hole Excellent bending strength of the contact when walking or running, reducing the fatigue of the foot, and by adhering the elastic cushioning surface on the front of the body of the midsole, the recovery completion that is recovered after the midsole is bent, thereby preventing the deformation of the user, The shock transmitted to the sole by weight is absorbed and dispersed as a whole by the cushioning surface as well as the cushioning surface. It relates to a shock absorbing structure of the midsole for shoes that can reduce the fatigue of the wearer.

In general, the shoe is composed of a sole that is located on the lowermost side, a midsole located on the upper side of the sole, an insole located on the upper side of the midsole, and an upper covering the foot in contact with the sole.

Here, the conventional shoe midsole is made of synthetic resin material that the main circumference absorbs a predetermined impact, and then manufactured by stacking a cover material of artificial skin or vinyl paper on the upper part of the cushioning part, forming a foamed urethane, or making various strains. It is manufactured by various methods such as pressing, pressing, pressing, and molding.

Here, shoes are intended to reduce the impact on the foot by the user when the user walks on the floor to reduce the impact on the foot and to provide comfort to the foot by preventing the user from directly touching the sole of the shoe, but when used for a long time, the heel or heel Since the insole is compressed under the load of the user continuously to the site, the cushioning force absorbing the shock gradually decreases in the extruded site, so that the impact on the foot is not properly alleviated, resulting in a problem of deforming the shoes or the shape of the foot.

In addition, as the shock from the weight is transmitted to the foot without filtration, the disadvantage of feeling more tired over time.

The present invention devised to solve the above problems, as well as to relieve the impact of the foot caused by the user wearing the shoes, as well as to strengthen the bending and restoring force of the midsole, the front of the heel easily bent, after bending The purpose of the present invention is to reduce the fatigue of the sole of the foot by easing the impact as much as possible by allowing the body to be easily restored and absorbing and distributing the weight by the weight transmitted to the sole of the foot.

The above object is to insert the elastic buffer portion 104 in the insertion hole 103 formed in the predetermined position of the heel contact portion of the body 102 of the midsole 101 placed between the sole and the insole to be bonded with an adhesive. In the shock absorbing structure of the shoe midsole, integrally formed on the upper surface of the buffer portion 104, and includes a buffer surface 105 of a predetermined thickness adhered to the entire upper surface of the body 102 of the midsole 101. It is achieved by the shock absorbing structure of the shoe midsole, characterized in that.

Here, the body of the midsole is preferably molded into any one of a latex and urethane containing char.

Hereinafter, the shock absorbing structure of the shoe midsole according to the present invention will be described with reference to FIGS. 1 and 2.

As shown, the insertion hole 103 of a predetermined size is drilled in the portion of the body 102 of the midsole 101 that is in contact with the heel, and the buffer part 104 inserted into the insertion hole 103 is inserted. The same shape and size as the ball 103, the front end of the buffer portion 104 is bonded to the upper surface of the body 102 of the midsole 101, the buffer surface 105 made of urethane or latex material is the body ( It is extended according to the shape and shape of 102.

Here, the buffer surface 105 is preferably formed thinner than the thickness of the buffer portion 104. That is, when the buffer surface 105 is attached to the upper surface of the body 102, the buffer surface 105 to have a sense of unity with the body 102 so that when the body 102 is bent when walking the buffer surface ( 105 is also bent, and when the body 102 is restored, the elastic restoring force of the buffer surface 105 may act on the body 102 so that it can be easily restored.

Meanwhile, the buffer surface 105 is inserted while applying the adhesive to the bottom of the buffer surface 105 and inserting the buffer portion 104 so that the shape and shape of the insertion hole 103 and the buffer portion 104 can be matched. The edge of the ball 103 is of course glued to the entire upper surface of the body 102.

After the midsole 101 has been manufactured with the structure as described above, the midsole 101 is inserted over the sole (not shown), and an insole (not shown) is inserted thereon. The present invention can be used without placing the insole in the upper part of the present invention does not limit whether the insole is placed on the upper portion of the midsole 101.

Therefore, when the user walks after wearing the shoes, the weight is carried from the heel, the fatigue is transmitted to the foot, and the weight is forward, and the impact of the load transmitted from the weight to the foot is transmitted while the heel is in contact with the buffer 104. It is absorbed by the buffer 104.

That is, the shock absorbing unit 104 is relaxed by the shock generated from the body weight, and at the same time the shock can be absorbed.

Therefore, when the weight is tilted forward, it can be seen that the shock is absorbed and dispersed by the buffer unit 104, and when the foot is released, the sole and the midsole 101 and the insole of the shoe are simultaneously bent at the heel and toe. Here, the conventional midsole 101 is formed by pressing a paper or the like into a press, so there is a slight cushion on the material, but the overall rigidity is very hard and not easily bent, but the midsole 101 according to the present invention ) Is because the insertion hole 103 is a wide perforated state to be bent very small can be easily bent.

In addition, since the buffer 104 inserted into the insertion hole 103 is elastic, it naturally bends and at the same time the user is bent from the moment the foot is separated from the ground, the relaxed buffer 104 is restored by elasticity. The bent body 102 is to be unfolded naturally.

Therefore, the midsole 101 is always restored to the same shape by the elasticity of the buffer part 104 in a series of operations in which the body 102 is bent and unfolded, and thus, shape deformation of the shoe is not easily performed. Since the shoes are not deformed, the shape of the foot is also not deformed.

In particular, since the buffer surface 105 is formed in accordance with the shape of the body 102 in the upper surface of the buffer portion 104 is bonded to the entire upper portion of the body 102, the elasticity and buffer of the buffer portion 104 The elasticity of the face 105 allows the body 102 to act as if the body 102 itself has elastic force, and the body 102 itself has a relatively rigid model, and thus the elastic force is ensured to further prevent deformation. You can do it.

In addition, when the wearer maintains the standing state without walking or running, the load is applied to the entire sole of the foot. In this case, it is difficult to absorb and disperse all the loads of the human body by the shock absorption by the shock absorbing part 104. Since the load transmitted to the entire sole of the foot is transmitted to the buffer surface 105, the load in the standing state can also be absorbed and dispersed by the buffer surface 105.

On the other hand, the body 102 is formed of a latex or urethane containing char, it is possible to remove the sweat odor or odor generated in the wearer's feet, as well as suppress the occurrence of mold.

In addition, far-infrared rays generate antibacterial effect and cause unpleasant odor due to high humidity. When charcoal is put in, it maintains comfortable humidity by adsorption and desorption function. In addition to far-infrared rays, negative ions are emitted, which is related to the weak alkalinity of charcoal, which can prevent oxidation of the feet.

As described above, the present invention adheres the cushioning portion and the cushioning surface to the body to absorb and disperse the shock transmitted from the heel of the foot during walking, thereby alleviating the shock, and in the standing standing state, the load transmitted to the entire sole of the foot is maintained. By absorbing and dispersing the cushioning surface, the fatigue of the wearer can be minimized at all times. In addition, the relatively hard body, the buffering portion, and the buffering surface are bonded to each other, so that the body itself has elasticity while maintaining the model without deformation. Shock absorption, as well as excellent elastic resilience when bent and unfolded has the effect of preventing the deformation of the shoes as well as the deformation of the foot in advance.

1 is an exploded perspective view illustrating a structure of a midsole according to the present invention. FIG. 2 is a view illustrating a state in which a ventilation pad is attached to the midsole according to the present invention.

<Description of the symbols for the main parts of the drawings>

101: midsole 102: body

103: insertion hole 104: buffer

105: buffer surface

Claims (2)

In the shock absorbing structure of the shoe midsole to insert the elastic cushioning portion in the insertion hole formed at the predetermined position of the heel contact portion of the body of the midsole placed between the sole and the insole and bonded with an adhesive, The shock absorbing structure of the midsole for shoes, characterized in that integrally molded on the upper surface of the buffer portion, and comprising a buffer surface of a predetermined thickness adhered to the entire upper surface of the body of the midsole. The method of claim 1, The body of the midsole is a shock absorbing structure of the midsole for shoes, characterized in that molded into any one of a latex and urethane containing char.