KR102379749B1 - Slipper having dual sole structure of different hardness - Google Patents

Abstract

The present invention is a midsole ( 110), formed in a shape corresponding to the shape of the midsole 110, attached to the bottom surface of the midsole 110, and made of a material containing a high wear resistance component, Asker C type hardness of 43 to 46 by injection foaming method Through the dual sole structure of the midsole 110 and the outsole 120 with different hardness, including the strap 130 coupled to the front side of the outsole 120 and the midsole 110 to wrap the instep, formed of The midsole 110 in contact with the sole of the foot constantly distributes the weight pressure during walking to maintain a stable walking posture without twisting the foot, and the outsole 120 in contact with the ground acts as a cushion to elastically absorb the shock transmitted from the ground. Disclosed is a slipper having a dual sole structure with different hardness, which can be absorbed to minimize foot fatigue.

Description

A slipper with a dual sole structure with different hardness {SLIPPER HAVING DUAL SOLE STRUCTURE OF DIFFERENT HARDNESS}

The present invention is capable of minimizing foot fatigue by implementing double shock distribution and shock absorption, and in an unexpected gait accident, the midsole fixes the foot so that it does not depart from the slipper, and the outsole is delivered to the foot due to the final impact at the time of an accident It relates to a slipper having a dual sole structure with different hardness, which can absorb shock to protect the toe or ankle as much as possible.

Recently, numerous types of shoes having various designs, for example, slippers, have been manufactured according to the improvement of living standards and various needs of consumers, and slippers with special functions according to each function are being released in various ways.

In general, slippers are composed of a midsole in contact with the user's sole, an outsole in contact with the ground, and a strap that wraps around the instep. do.

On the other hand, both the midsole and the outsole are made of lightweight materials with excellent resilience to absorb shock when landing on the ground.

However, in the case of manufacturing focusing only on weight reduction and shock absorption, in the event of an unexpected walking accident, the foot cannot be stably fixed, and there is a possibility that the foot may be separated from the slipper and cause a greater injury.

Therefore, through the dual sole structure with different hardness of the shock dispersing and shock absorption function of the high hardness midsole, it is possible to minimize the fatigue of the foot by realizing double shock distribution and shock absorption, while unexpectedly falling forward or backward or slipping one foot. During a walking accident, the midsole secures the foot so that it does not separate from the slipper, and the outsole absorbs and alleviates the shock transmitted to the foot due to the final impact during an accident, thereby maximally protecting the toe or ankle.

Korean Utility Model Publication No. 20-0449828 (prefabricated slippers, 2010.08.12) Korean Unexamined Patent Publication No. 10-2009-0117593 (A shoe sole integrally molded with an outsole in a single mold with a hollow cushion projection, a mold for manufacturing the sole, and a manufacturing method for this sole, 2009.11.12) Korean Patent Laid-Open Publication No. 2000-0036859 (Shoe sole having a cushion member and a midsole having different inner and outer hardness, and a manufacturing method therefor, 2000.07.05)

The technical problem to be achieved by the idea of the present invention is to minimize foot fatigue by implementing double shock distribution and shock absorption, and the midsole fixes the foot in a gait accident in which an unexpected fall forward or backward or one foot slips away from the slipper It is to provide a slipper having a dual sole structure with different hardness, which prevents it from being separated, and the outsole absorbs the shock transmitted to the foot due to the final impact during an accident to protect the toe or ankle as much as possible.

In order to achieve the above object, the present invention, a toe support, arch support and heel support to form a foot bed, formed by compression molding with a pylon material to a Asker C-type hardness of 60 to 63, midsole; The outsole is formed in a shape corresponding to the shape of the midsole, is attached to the bottom surface of the midsole, and is formed of a material containing a high abrasion resistance component to an Asker C-type hardness of 43 to 46 by an injection foaming method; and a strap coupled to the front side of the midsole to wrap the instep.

Here, it may be manufactured by the FMT process.

In addition, the hardness of the heel support may be less than the hardness of the toe support or the arch support.

In addition, the hardness of the toe support may be less than the hardness of the arch support.

In addition, the surface of the midsole in contact with the sole of the user's sole may be treated with an anti-slip surface.

In addition, the bottom surface of the outsole in contact with the ground is formed by being divided into a plurality of protrusions, the central protrusion corresponding to the position of the user's midfoot may be formed in a regular hexagonal shape and configured to be rotatable.

Also, the central protrusion may be divided into a plurality of regions having different hardnesses.

In addition, the central protrusion may be divided into a plurality of regions having different protrusion degrees.

Also, the heel support may have an edge protruding at a predetermined height so as to surround the user's heel.

According to the present invention, through the dual sole structure in which the hardness of the shock dispersing and shock absorbing function of the soft outsole and the shock dispersing and shock absorbing function of the high hardness midsole are different, unexpected falls forward or backward or when one foot slips in a gait accident The midsole secures the foot so that it does not come off the slippers, and the outsole absorbs the shock transmitted to the foot due to the final impact in an accident to protect the toe or ankle as much as possible. Fatigue can be minimized, and the elastic strap has the effect of providing a more comfortable fit by being stretched according to the size or shape of the user's instep.

In addition, by rotating the central protrusion of the bottom of the outsole and fixing it at the optimal rotational position corresponding to the midfoot, there is an effect that can provide a comfortable feeling of wearing.

1 illustrates a slipper having a dual sole structure having different hardness according to an embodiment of the present invention.
Figure 2 illustrates the structure of the bottom surface of the outsole of the slipper having a dual sole structure having different hardness of Figure 1;
3 and 4 are X-ray photographs comparing the degree of distortion of the foot in a state in which slippers having a dual sole structure having different hardness of FIG.

Hereinafter, embodiments of the present invention having the above-described characteristics will be described in more detail with reference to the accompanying drawings.

The slipper having a dual sole structure with different hardness according to an embodiment of the present invention, as a whole, is composed of a toe support 111 , an arch support 112 , and a heel support 113 to form a foot bed, and is compressed with a pylon material The midsole 110, formed in a shape corresponding to the shape of the midsole 110 by molding and formed to an ASKER C-type hardness of 60 to 63, is attached to the lower surface of the midsole 110, and has high wear resistance The outsole 120, which is formed of a material containing ingredients with an Asker C-type hardness of 43 to 46 by the injection foaming method, and a strap that is composed of a stretchable material and is coupled to the front side of the midsole 110 to wrap the instep Through the dual sole structure of the midsole 110 and the outsole 120 having different hardness, including 130, the midsole 110 that the user's sole is in contact with uniformly distributes the weight pressure during walking to ensure stable walking without distortion of the foot. To maintain the posture, the outsole 120 in contact with the ground acts as a cushion to elastically absorb the shock transmitted from the ground to minimize the fatigue of the foot.

Hereinafter, referring to FIGS. 1 to 4 , the slippers having a dual sole structure having different hardness of the above-described configuration will be described in detail as follows.

First, the midsole 110 is composed of a toe support 111, an arch support 112, and a heel support 113 to correspond to the shape of the user's sole of the foot. A footbed is formed, and compression molding is performed with a phylon material to have an Asker C-type hardness of 60 to 63.

That is, the midsole 110 is designed as a foot bed structure similar to the sole shape with an Asker C-type hardness of 60 to 63, so it fixedly supports the foot with a relatively high hardness compared to the outsole 120, and the exact dimensions for each foot size It is formed without error due to contraction, and it is possible to maintain a stable gait posture without distortion of the foot by uniformly distributing the user's weight pressure while walking.

On the other hand, since the hardness of the heel support 113 is smaller than that of the toe support 111 or the arch support 112 , it is possible to provide the shock absorption performance of the heel support 113 that the heel touches during walking, and the toe support 111 ), the hardness may be smaller than the hardness of the arch support 112 , thereby providing the shock absorption performance of the toe support 111 that the toe touches when walking.

In addition, referring to FIG. 1 , the heel support 113 has an edge that protrudes to a certain height to cover the user's heel when wearing shoes, so that the heel is not easily separated from the heel support 113 when walking, so that you can walk stably. You might as well keep it.

Therefore, due to the toe support 111 and the heel support 113 configured with different hardness as described above, it acts as a spring to make the walking of the foot smooth and natural from the seating of the heel to the toe-off. may be

Next, the outsole 120 is formed in a shape corresponding to the shape of the midsole 110 and attached to the lower surface of the midsole 110 by adhesive or thermal fusion, and is injected with a material containing a high wear resistance component. It is formed with an Asker C-type hardness of 43 to 46 by the foaming method, so that it can provide light and good elasticity.

That is, the outsole 120 is formed with a relatively low hardness compared to the midsole 110 to maintain rebound resilience, for example, serves as a cushion or rebound when in contact with the ground, and reduces the impact transmitted from the ground when walking. It absorbs elastically and distributes weight pressure to minimize foot fatigue, and it can also minimize foot fatigue due to its moderate rebound elasticity even when walking for a long time.

Accordingly, as mentioned above, through the dual sole structure in which the hardness of the shock dispersion and shock absorption function of the soft outsole 120 and the shock dispersion and shock absorption function of the high hardness midsole 110 are different, double shock dispersion and It is possible to minimize the fatigue of the foot by implementing shock absorption.

In addition, the relatively high hardness of the midsole 110 fixes the foot, and the relatively low hardness of the outsole 120 acts as a cushion or rebound, and unexpectedly falls forward or backward or when one foot slips in a gait accident. The midsole 110 fixes the foot so that it does not deviate from the slippers, and the outsole 120 absorbs the shock transmitted to the foot due to the final impact during an accident to protect the toe or ankle as much as possible.

On the other hand, the surface of the midsole 110 in contact with the user's sole may be subjected to anti-slip surface treatment such as dot treatment or sanding treatment, so that the sole can walk stably without slipping.

Next, the strap 130 is coupled to the front side of the midsole 110 by sewing, adhesive or thermal fusion to wrap the instep, and at this time, the size or shape of the user's instep while the foot is seated on the midsole 110 . Accordingly, the entire strap is made of a stretchable material, or is formed in a portion of the strap or the joint between both ends of the strap and the midsole 110, so that the user can stretch and move in the process of wearing and moving to provide a more comfortable and stable fit. It may be configured to further include a stretchable portion containing a possible material.

On the other hand, the slippers having a dual sole structure with different hardness of the aforementioned configuration can be manufactured by the FMT (Flow Mold TPU (Thermoplastic Poly Urethane)) process, so it has better durability and better details than conventional silicone. This makes it possible to mold detailed details and manufacture slippers with a detailed and beautiful exterior design.

In addition, referring to FIG. 2 , the bottom surface of the outsole 120 in contact with the ground is divided into a plurality of protrusions, and the central protrusion (shank) 121 corresponding to the location of the midfoot of the user's sole is rotatable in a regular hexagonal shape. The central protrusion 121 is divided into a plurality of regions having different hardness, or the central protrusion 121 is divided and divided into a plurality of regions having different degrees of protrusion, so that the shape of the midfoot is different for each user. Therefore, the central protrusion 121, which has different hardness or protrusion degree depending on the position of the user's midfoot, is rotated and fixed to the optimal rotational position, so as to stably support the midfoot and provide a comfortable fit. You can also adjust the rotation of

On the other hand, FIGS. 3 and 4 are X-ray photographs showing the degree of distortion of the foot in a state in which slippers having a dual sole structure having different hardness of FIG. 1 are worn, respectively, and compared with other products. a) is a frontal and side X-ray photograph of the foot when wearing slippers having a dual sole structure with different hardness according to an embodiment of the present invention, (b) and (c) are the shoes of other companies (Adidas and Woopos) It is a frontal and side X-ray photograph of the foot, and (d) is a front and side X-ray photograph of the foot when standing on flat ground without ignition. Comparing this, a dual sole structure with different hardness according to an embodiment of the invention is It can be seen that the front and side of the foot when wearing the equipped slippers are close to a straight line with the least inclination based on a vertical line from the ground. Fatigue can also be minimized.

Therefore, due to the configuration of the slippers having the dual sole structure having different hardness as described above, the dual sole structure in which the hardness of the shock dispersing and shock absorbing function of the soft outsole and the shock dispersing and shock absorbing function of the high hardness midsole are different In the event of a gait accident in which one foot unexpectedly falls forward or backward, or one foot slips, the midsole fixes the foot so that it does not separate from the slipper, and the outsole absorbs the shock transmitted to the foot due to the final impact during the accident to maximize the toe or ankle. It can protect the feet, and it can minimize the fatigue of the feet by implementing double shock distribution and shock absorption, and it can be stretched according to the size or shape of the user's instep by an elastic strap to provide a more comfortable fit, and the bottom of the outsole It is possible to provide a comfortable feeling of wearing by rotating the central protrusion of the body and fixing it in the optimal rotation position corresponding to the midfoot.

Configurations shown in the embodiments and drawings described in this specification are only the most preferred embodiment of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents that can be substituted for them at the time of the present application It should be understood that there may be water and variations.

110: midsole 111: toe support
112: arch support 113: heel support
120: outsole 121: central protrusion
130: strap

Claims (9)

The midsole is composed of a toe support, an arch support, and a heel support to form a foot bed, and is compression-molded with a pylon material to have an Asker C-type hardness of 60 to 63;
Formed in a shape corresponding to the shape of the midsole, attached to the bottom surface of the midsole by thermal fusion, and formed with a Asker C-type hardness of 43 to 46 by injection foaming method with a material containing abrasion-resistant components, outsole; and
Including; a strap that is coupled to the front side of the midsole by thermal fusion and wraps the instep.
Further comprising a connecting portion between both ends of the strap and the midsole or a stretchable portion comprising a stretchable material formed on a portion of the strap,
manufactured by FMT process,
The surface of the midsole in contact with the sole of the user's sole is subjected to a non-slip surface treatment of sanding treatment,
The bottom surface in contact with the ground of the outsole is divided into a plurality of protrusions, and the central protrusion corresponding to the position of the user's midfoot is formed in a regular hexagonal shape and configured to be rotatable,
The central protrusion is divided into a plurality of regions having different hardness,
The central protrusion is divided into a plurality of regions having different protrusion degrees,
The heel support slippers having a dual sole structure with different hardness, characterized in that the edge is formed to protrude to a predetermined height so as to surround the lower portion of the user's heel.
delete The method of claim 1,
Slippers having a dual sole structure having different hardness, characterized in that the hardness of the heel support is smaller than the hardness of the toe support or the arch support.
The method of claim 1,
Slippers having a dual sole structure having different hardness, characterized in that the hardness of the toe support is smaller than the hardness of the arch support.
delete delete delete delete delete

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