KR101251586B1 - a sole having shock absorbing and distributing function - Google Patents

Abstract

The present invention relates to a shoe sole equipped with a shock absorbing and impact dispersion function, and more particularly, a cushion layer capable of absorbing a shock to the sole of the shoe, and a split so that a shock applied to a specific part is not transmitted to another part. The present invention relates to a shoe sole equipped with a shock absorbing and impact dispersion function capable of minimizing a shock applied to an ankle or a user's ankle by absorbing and distributing a shock transmitted to a shoe's sole when walking with a bone.
The present invention as a technical concept for achieving the above object, in the shoe sole consisting of a midsole provided on the lower portion of the shoe to support the foot and absorb external shocks, and an outsole coupled to the lower surface of the midsole, The midsole has an arc-shaped structure in which the middle part protrudes downward and both ends are bent upward, and a plurality of split bones are provided along the length direction of the lower part, and a plurality of blocks are formed between the split bones, and each of the plurality of blocks has a cushion. A layer is formed, and the outsole has a bent portion corresponding to the shape of the opening of the split bone at a position corresponding to the split bone, characterized in that the bent portion is coupled while receiving a portion of the split bone.

Description

Sole with shock absorbing and dispersing function {a sole having shock absorbing and distributing function}

The present invention relates to a shoe sole equipped with a shock absorbing and impact dispersion function, and more particularly, a cushion layer capable of absorbing a shock to the sole of the shoe, and a split so that a shock applied to a specific part is not transmitted to another part. The present invention relates to a shoe sole equipped with a shock absorbing and impact dispersion function capable of minimizing a shock applied to an ankle or a knee of a user by absorbing and dispersing a shock transmitted to a shoe sole when walking with a bone.

Shoe is a protective device worn on the foot to protect the foot from the dangers of walking or ground. As such, the original purpose of shoes was to protect the feet from weather conditions such as thorns, stones, glass, nails, and dangerous objects or cold scattered on the ground while walking. There is a growing interest in shoes having various functionalities such as fashion, well-being and sports functions. In addition, from the standpoint of the enterprise, in order to compete with low-priced shoes imported from emerging developing countries, continuous attention and research and development on high-quality and functionalization of products are needed.

In general, the shoe is composed of an upper that is provided perpendicular to the sole and the rim of the sole is formed in a shape corresponding to the shape of the foot. In the case of the upper is mainly designed for the purpose of good fashion, the sole is generally designed for the purpose of functionality.

In the conventional shoe sole, since the bottom surface is flat, the external force transmitted from the bottom surface is transmitted to the ankle and knee as it is walking, and because the ankle is broken, it causes damage to the joint area and also fatigue. There was an issue that felt quickly. Therefore, in recent years, masai walking shoes have been released, which convex the soles of the shoes to the outside to reduce the shock transmitted to the joints and listen to the fatigue.

However, the shoe according to the prior art has a significant effect in reducing the amount of impact from the outside due to the ergonomic design, but there was a limit in mitigating the impact by absorbing or dispersing the shock transmitted from the outside once .

The present invention is to solve the above problems, the midsole to form the sole of the shoe to the arc structure, having a plurality of divided bones on the lower surface of the arc structure of the arc structure to form a block, the block It is an object of the present invention to provide a shoe sole having a function of absorbing and dispersing an impact transmitted from the outside by providing a cushion layer for absorbing an impact.

The present invention as a technical concept for achieving the above object, in the shoe sole consisting of a midsole provided on the lower portion of the shoe to support the foot and absorb external shocks, and an outsole coupled to the lower surface of the midsole, The midsole has an arc-shaped structure in which the middle part protrudes downward and both ends are bent upward, and a plurality of split bones are provided along the length direction of the lower part, and a plurality of blocks are formed between the split bones, and each of the plurality of blocks has a cushion. A layer is formed, and the outsole has a bent portion corresponding to the shape of the opening of the split bone at a position corresponding to the split bone, characterized in that the bent portion is coupled while receiving a portion of the split bone.

By the shoe sole provided with a shock absorbing and impact dispersion function according to the present invention, the shock applied from the outside is absorbed by the cushion layer provided on one side of the midsole, and the external force applied to the specific block is offset by the split bone By preventing the transfer to other adjacent bones to improve the fit of the shoes, there is an advantage that can alleviate the impact on the joints, such as ankle or knee.

Figure 1 is a side cross-sectional view showing the configuration of a shoe sole provided with a shock absorption and impact dispersion function according to the present invention.
Figure 2 is a perspective view of the midsole of the shoe sole provided with a shock absorbing and shock dispersion function according to the present invention.
Figure 3 is a front view of the shoe sole provided with a shock absorbing and shock dispersion function according to the present invention.

BEST MODE Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a side cross-sectional view showing the configuration of a shoe sole provided with a shock absorbing and shock dispersion function according to the present invention, Figure 2 is a perspective view of the midsole of a shoe sole provided with a shock absorbing and shock dispersion function according to the present invention, 3 is a front view of a shoe sole equipped with a shock absorbing and impact dispersion function according to the present invention.
1 to 3, the shoe sole provided with a shock absorbing and impact dispersion function according to the present invention, the midsole 100 is provided in the lower portion of the shoe to support the feet and absorb external shocks, and the midsole In the shoe sole consisting of the outsole 200 is coupled to the 100, the midsole 100 is protruding downward in the middle portion and both ends are curved upward, arc-shaped structure, along the longitudinal direction of the bottom A plurality of split bones 110 are formed, a plurality of blocks 130 are formed between the split bones 110, a cushion layer 135 is formed in the block 130, the outsole 200 is The bent part 250 corresponding to the shape of the opening of the split bone 110 is formed at a position corresponding to the split bone 110 so that the bent part 250 is accommodated in a part of the split bone 110. Combined.
Soles of shoes are generally divided into midsole 100 and outsole 200, the upper of the midsole 100 is provided with an upper (not shown) is the midsole 100 when the user wears a shoe sole And the upper protects the instep and sides of the foot. And the outsole 200 is coupled to the midsole 100, the outsole 200 is in contact with the ground. Such a configuration is a conventional configuration of the shoe and a detailed description thereof will be omitted.
The midsole 100 of the shoe sole provided with a shock absorbing and impact dispersion function according to the present invention is configured in a shape corresponding to the shape of the sole so that the midsole 100 is in close contact with the sole when the shoe is worn. That is, the upper surface of the midsole 100 is curved so as to correspond to the shape of the sole between the heel of the foot and the contact portion of the sole so as to protrude, and the section corresponding to the end of the sole and the end of the toe to the end It is configured to be bent upwards gradually to form a curved surface that can be compared to the overall S-shape.
And the lower surface of the midsole 100 is curved so that the section between the heel of the sole and the end of the sole of the foot is projected downward, and the section corresponding to the end of the sole and the end of the toe is bent upward toward the end It is composed of fork.
On the other hand, the midsole 100 is provided with a shank (150, shank) that is a curved support.
Since the material of the midsole 100 is made of a relatively soft material such as EVA, pylon, or polyurethane, when the weight is applied or is used for a long time, the shape of the bottom collapses or deforms, resulting in poor fit or an uneven load on the joint. It will have an adverse effect on your health.
Therefore, the hard shank 150 is inserted in the midsole 100 to prevent deformation due to the weight, and the shank 150 should be provided at a position adjacent to the sole of the foot to achieve the desired purpose.
The lower portion of the midsole 100 is provided with a plurality of split bones 110 along the longitudinal direction, a plurality of blocks 130 are formed between the split bones 110 by the split bones 110.
Split bone 110 serves to block the propagation of the force applied to a particular portion to the adjacent area or to support the cushion layer 135 to be described later.
In other words, the force applied while the rear end of the midsole 150 touches the ground is transmitted toward the front end when walking. Particularly, in the case of shoes having an arc-shaped bottom surface, referred to as masai walking shoes, the contact surface moves gradually from the rear end of the shoe to the front end according to the walking step, wherein the split bone 110 is formed in the midsole 100. If there is a thick midsole 100 compared to the normal shoes to be somewhat flexible to absorb the shock, the impact is distributed as well as the gap between the split bone 110 is expanded or narrowed as well as the shock is transmitted to the adjacent block It is effective to prevent that. Therefore, the effect of improving the fit occurs due to the shock absorption and dispersion effects.
In this case, the number of split bones 110 may be selectively formed as needed, but when too much is formed, the movement of the gradual contact surface due to the curved shape of the midsole 100 is difficult to be maintained, and in the case of too small, the absorption of shock And there is a problem that the dispersion effect is poor.
In the preferred embodiment of the present invention, the aforementioned split bone 110 is formed to have four to six.
Split bone 110 is provided in the transverse direction with respect to the longitudinal direction of the midsole (110).
In this case, at least one split bone among the plurality of split bones 110 may be formed at a predetermined angle so as not to be parallel with other split bones adjacent thereto (see 110 ′ in FIG. 3).
In general, when looking at the distribution of the load during walking, the most load is applied to the midsole 100 of the section corresponding to the heel of the foot and the tip of the foot (the starting point of the toe), and not much load is applied to the section corresponding to the toe. Therefore, the split bone 110 is preferably formed in the midsole 100 of the section corresponding to the heel of the foot and the end of the foot.
A plurality of blocks 130 formed between the split bones 110 is provided with a cushion layer 135, respectively.
The cushion layer 135 is a structure for absorbing the impact applied from the bottom surface.
In general, a shoe is not only lifted on one foot to move the gait at the point where the foot and the body are perpendicular, but also receives the most load because the weight is applied vertically to the shoe.
Therefore, the plurality of cushion layers 135 provided in the plurality of blocks 130 described above are configured to become thinner toward both ends with respect to the cushion layer (135 'of FIG. 1) provided in the center portion.
And the shape of the cushion layer 135 may be configured in various ways, preferably the shape of the side cross-section is made of any one of the shape of a rectangle, semi-circle or semi-ellipse or a combination thereof.
The outsole 200 is coupled to the bottom surface of the midsole 100 described above.
At this time, the outsole 200 is formed with a bent portion 250 corresponding to the shape of the opening of the divided bone at a position corresponding to the divided bone 110 of the midsole 100, the bent portion 250 is divided It is combined while receiving some of the bones.
In an exemplary embodiment of the present invention, an extension part 117 is formed at an opening of the midsole 100, and the bent part 250 of the outsole 200 is formed to correspond to the shape of the extension part 117.

Therefore, the bent part 250 may be coupled to the extension part 117 so that the outsole 200 and the midsole 100 may be more firmly fixed.

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Although the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be defined by the appended claims and equivalents thereof.

100: midsole 110: split goal
115: side wall 117: expansion portion
130: block 135: cushion layer
150: shank 170: outer wall
200: outsole 250: bend

Claims (6)

In the shoe sole consisting of a midsole 100 provided at the bottom of the shoe to support the foot and absorb external shocks, and an outsole 200 coupled to the midsole 100,
The midsole 100 has a central portion protruding downward and both ends are curved upward to have an arc-shaped structure, a plurality of divided bones 110 are formed along the longitudinal direction of the lower portion,
A plurality of blocks 130 are formed between the split bone 110,
The plurality of blocks 130 are each formed with a cushion layer 135,
The outsole 200 has a bent portion 250 corresponding to the shape of the opening of the split bone 110 at a position corresponding to the split bone 110, so that the bent portion 250 is divided into the split bone 110. Sole with shock absorption and shock dispersion function characterized in that coupled to accommodate a portion of the). The method of claim 1,
A shoe sole having a shock absorbing and impact dispersion function, characterized in that the shank 150 is formed in the inside of the midsole 100 is a curved support. The method of claim 1,
The cushion layer 135 is provided with a shock absorbing and dispersing function, characterized in that the thickness is thinner toward both ends with a cushion layer provided in the center portion. delete The method of claim 1,
An opening 117 is formed in the opening of the midsole 100,
The bent portion 250 of the outsole 200 is formed to correspond to the shape of the expansion portion 117,
The shoe sole with a stratification absorption and impact dispersion function, characterized in that the bent portion 250 is coupled to the expansion portion 117. The method of claim 1,
The cushion layer 135,
Shoe sole with shock absorption and impact dispersion function, characterized in that the side cross-sectional shape is composed of any one of a rectangular, semi-circular, semi-elliptic shape or a combination thereof.

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