JP6987027B2 - Sole structure for shoes and shoes with it - Google Patents

Description

The present invention relates to a sole structure for shoes and a shoe provided with the sole structure.

Conventionally, as in Patent Document 1, a plurality of first protrusions that project downward from the lower surface of the sole body toward the road surface side and are arranged at intervals from each other, and shoes are worn from the upper surface of the sole body. Disclosed is a sole structure for a shoe comprising a plurality of second protrusions, which project upward toward the sole side of the person (hereinafter referred to as "wearer") and are arranged at intervals from each other. .. The first and second protrusions are arranged at positions facing each other vertically with the sole body interposed therebetween. Further, the lower end portion of the first protrusion is formed in a hemispherical shape, and the lower end portion is formed so that the contact portion with respect to the road surface becomes relatively small. Further, in this sole structure, the contact area of the first protrusion with respect to the road surface and the contact area of the second protrusion with respect to the sole of the wearer are substantially the same.

Japanese Unexamined Patent Publication No. 2014-144170

In the sole structure of Patent Document 1, when the wearer's foot (sole structure) touches the road surface (hereinafter referred to as "grounding"), the reaction force acting on the sole structure from the road surface is applied from the first protrusion to the sole. It is transmitted to the second protrusion via the main body. As a result, the reaction force is transmitted to the sole of the wearer's foot.

However, in the sole structure of Patent Document 1, the contact portion with respect to the road surface at the lower end portion of the first protrusion is formed to be relatively small, and the ground contact area of the first protrusion with respect to the road surface and the second with respect to the sole of the wearer's foot. Since it is configured so that the contact area of the protrusions is substantially the same, the reaction force tends to be dispersed in the process from the first protrusion to the second protrusion at the time of touchdown, and the reaction force becomes the second. It becomes difficult to accurately transmit from the protrusions to various parts of the wearer's sole. For this reason, the wearer cannot recognize the strength of the pressure transmitted to each part of the sole of the foot when touching the ground, and can timely grasp the load applied to each part of the sole of the foot when touching the ground. It was difficult to control the movement of.

The present invention has been made in view of these points, and an object of the present invention is to make it easier to control the movement of the body by timely grasping the load applied to each part of the sole of the foot at the time of touchdown.

In order to achieve the above object, the first aspect of the present invention relates to a sole structure for shoes, and this sole structure includes a sole body portion that supports the entire sole of the wearer and a sole body portion. It protrudes downward from the lower part toward the road surface side, and a plurality of lower convex parts arranged at intervals from each other, and upwardly from the upper part of the sole main body toward the sole side of the wearer, each of which is the sole main body. It is provided with a plurality of upper convex portions arranged at positions overlapping with each lower convex portion on the upper side of the above. Each lower convex portion has a first region in contact with the road surface at the lower portion, and each lower convex portion is formed in a substantially columnar shape and is a quadrangle in a plan view, and the first region is , Each upper convex portion is configured as a lower bottom surface in each lower convex portion, and each upper convex portion has a substantially columnar base portion and a tip portion formed integrally with the base portion and tapered upward. , Each upper convex portion is a quadrangle in a plan view, and the horizontal cross section of the tip portion is smaller than the first region of each lower convex portion located below the lower convex portion. The portions are adjacent so that the width of the groove between the lower convex portions adjacent to each other in the predetermined region of the sole main body portion is smaller than the width of the lower convex portion, and the plurality of upper convex portions are adjacent to each other. , The width of the groove between the upper convex portions adjacent to each other in the predetermined region is adjacent so as to be smaller than the width of the upper convex portions, and the upper convex portions adjacent to each other are adjacent to each other. reaction force through the grooves located between the state, and are integral with each other, the plurality of upper protrusions, consist foam elastic material is fixed to the sole body portion, during ground, received from the road surface Is transmitted to a plurality of lower convex portions, and each upper convex portion arranged at a position where the reaction force overlaps with each lower convex portion on the upper side of the sole main body portion from each lower convex portion to each upper convex portion. It is characterized in that it is configured to be directly transmitted to the sole of the wearer's foot via.

In this first embodiment, the reaction force received from the road surface is transmitted to the plurality of lower convex portions when the wearer's foot touches the ground by various movements such as walking movement, running movement, or jumping movement. The reaction force is directly transmitted from each lower convex portion to the sole of the wearer's foot via each upper convex portion by each upper convex portion arranged at a position overlapping with each lower convex portion on the upper side of the sole main body portion. Will be done. Since the horizontal cross section of the tip of each upper convex portion (that is, the size of the portion of the tip that abuts on the sole of the foot in a plan view) is smaller than the first region of each lower convex portion. At the time of touchdown, the reaction force is concentrated from the first region toward the tip portion. As a result, the reaction force is transmitted to various parts of the sole of the wearer as a pressure amplified from the tip of each upper convex portion. As a result, the wearer can recognize the strength of the pressure transmitted to each part of the sole of the foot when touching the ground for each part. Therefore, in the first embodiment, it is possible to timely grasp the load applied to each part of the sole of the foot at the time of touchdown, and it is possible to easily control the movement of the body.

The second form is characterized in that, in the first form, the plurality of upper convex portions are formed so that the height of each protrusion differs depending on the portion of the sole of the wearer.

In this second embodiment, the reaction force generated at the time of touchdown can be appropriately transmitted according to each part of the sole of the foot, and excessive pressure can be adjusted especially on the part of the sole where pain is likely to be felt. ..

The third form is a shoe comprising the sole structure for shoes of the first or second form.

In this third form, it is possible to obtain shoes having the same action and effect as those in the first or second form.

The fourth embodiment further comprises an upper attached to the upper side of the shoe sole structure in the third embodiment, wherein the upper has an upper body and an insole integrally formed with the upper body. And.

In this fourth form, since the upper has an upper body and an insole, shoes can be easily made as compared with the form having no insole.

The fifth form is characterized in that, in the third or fourth form, the insole arranged on the upper side of the sole structure for shoes is further provided.

In this fifth embodiment, since the insole is arranged on the upper side of the upper convex portion, the insole is arranged between the sole structure for shoes and the sole of the wearer's foot. That is, each upper convex portion is configured to abut on the sole of the foot via the insole. As a result, for example, even when an excessive pressure is applied from each upper convex portion, the pressure on the sole of the foot can be adjusted by the insole.

According to the present invention, it is possible to timely grasp the load applied to each part of the sole of the foot when touching the ground, and it is possible to easily control the movement of the body.

FIG. 1 is a perspective view showing the sole structure according to the embodiment of the present invention as viewed from above. FIG. 2 is a perspective view showing the sole structure according to the embodiment of the present invention as viewed from below. FIG. 3 is a partially enlarged cross-sectional view partially showing the vertical cross-sectional state of the sole structure. FIG. 4 is a schematic view showing the overlapping state of the first and second regions as viewed from above. FIG. 5 is a plan view schematically showing the positional relationship between the sole structure and the skeletal structure of the foot. FIG. 6 is a cross-sectional view showing a vertical cross-sectional state of the shoe according to the first modification of the embodiment. FIG. 7 is a cross-sectional view showing a vertical cross-sectional state of the shoe according to the second modification of the embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The following embodiments are merely exemplary and are not intended to limit the invention, its applications or its uses.

1 and 2 show the entire shoe S according to the embodiment of the present invention, and the shoe S is applied to sports shoes, daily use sneakers, rehabilitation shoes, etc. in various sports such as running and ball games. Will be done.

Here, the shoe S exemplifies only the shoe for the right foot. Since the shoes for the left foot are configured to be symmetrical with the shoes for the right foot, only the shoes for the right foot will be described below, and the description of the shoes for the left foot will be omitted.

Further, in the following description, the upper (upper side) and lower (lower side) represent the vertical positional relationship of the shoe S, and the front (front side) and the rear (rear side) represent the positional relationship of the shoe S in the front-rear direction. Shall represent.

As shown in FIGS. 1 and 2, the shoe S includes a sole 1. The sole 1 is provided in a range extending from the forefoot portion to the hindfoot portion of the foot of the person who wears the shoe S (hereinafter referred to as “wearer”). The sole 1 is made of, for example, an elastic material, for example, a thermoplastic synthetic resin such as ethylene-vinyl acetate copolymer (EVA) and its foam, a thermosetting resin such as polyurethane (PU) and its foam, and a butadiene rubber. And rubber materials such as chloroprene rubber and their foams are suitable. Further, an upper 2 covering the wearer's foot is provided on the peripheral edge of the sole 1 (see the virtual lines of FIGS. 1 and 2).

In this embodiment, the upper 2 is composed of an upper body 2a. The upper body 2a is mainly for covering the instep of the wearer. The upper body 2a is configured such that its lower end portion opens corresponding to the position of the upper peripheral portion 5 described later on the sole 1. Further, the upper body 2a is attached to the sole 1 in a state where the lower end portion thereof is fixed to the upper peripheral edge portion 5. Specifically, the lower end portion of the upper main body 2a is fixed to the upper surface 5a of the upper peripheral edge portion 5 by, for example, an adhesive or sewing.

As shown in FIG. 3, the sole 1 includes a sole main body portion 3. The sole body 3 is formed so as to support the entire sole F of the wearer. Specifically, the sole main body 3 is formed in a substantially plate shape and extends in the front-rear direction and the foot width direction of the shoe S so as to correspond to the entire sole F of the wearer.

As shown in FIGS. 2 and 3, a lower peripheral edge portion 4 integrally formed with the sole main body portion 3 is provided on the lower side of the sole 1. The lower peripheral edge portion 4 is formed so that the lower surface 4a is located below the lower end portion of the sole main body portion 3 and is arranged so as to cover the outer periphery of the sole main body portion 3.

As shown in FIGS. 1 and 3, an upper peripheral edge portion 5 integrally formed with the sole main body portion 3 is provided on the upper side of the sole 1. The upper peripheral edge portion 5 is formed so that the upper surface 5a is located above the upper end portion of the sole main body portion 3 and is arranged at a position covering the outer periphery of the sole main body portion 3. The upper peripheral edge portion 5 is formed with a curved front wall portion 6 on the front end side, while a curved rear wall portion 7 is formed on the rear end side.

As shown in FIGS. 2 and 3, the sole 1 includes a plurality of lower protrusions 11, 11, .... Each lower convex portion 11 is formed in a square columnar shape that is a regular quadrangle in a cross-sectional view, and projects downward from the lower portion of the sole main body portion 3 toward the road surface G side. Specifically, each lower convex portion 11 is formed so that the lower portion is located below the lower surface 4a of the lower peripheral edge portion 4. Further, the lower convex portions 11, 11, ... Are arranged so as to be spaced apart from each other.

A groove portion 12 is formed in a recessed portion upward from the bottom surface of each of the lower convex portions 11 between adjacent lower convex portions 11, 11, .... The groove portion 12 is formed so that the width is smaller and the depth is shallower than the distance between the lower convex portions 11, 11, ....

As shown in FIGS. 1 and 3, the sole 1 includes a plurality of upper convex portions 13, 13, .... Each upper convex portion 13 projects upward from the upper part of the sole main body portion 3 toward the sole F side of the wearer. Specifically, each upper convex portion 13 has a base portion 13a and a tip portion 13b integrally formed with the base portion 13a. The base portion 13a is formed, for example, in a square columnar shape that is a regular quadrangle in a cross-sectional view, and is formed so as to have a height dimension h0 substantially the same as that of the upper peripheral portion 5 from the upper portion of the sole main body portion 3. Further, the tip portion 13b is formed so as to taper upward from the upper end of the base portion 13a so as to have any of the height dimensions h1 to h3. That is, the upper convex portions 13, 13, ... Are formed so that the upper portion is located above the upper surface 5a of the upper peripheral edge portion 5. The apex portion of the tip portion 13b is preferably formed in a semicircular shape in a cross-sectional view.

Further, the upper convex portions 13, 13, ... Are arranged at predetermined intervals from each other, and are configured to form a pair with each lower convex portion 11 in a cross-sectional view. That is, each upper convex portion 13 is arranged at a position overlapping each lower convex portion 11 on the upper side of the sole main body portion 3.

Then, as shown in FIGS. 3 and 4, each lower convex portion 11 has a first region R1 whose lower portion is in contact with the road surface G (ground, floor surface, etc.). Specifically, each first region R1 is configured as a bottom surface on the lower side of a quadrangular prism in each lower convex portion 11, and the length of one side of the bottom surface is dimension a1 in a plan view. On the other hand, each upper convex portion 13 has a second region R2 in which the upper portion abuts on the sole F of the wearer. The second regions R2, R2, ... Are any of the dimensions b1 to b3 in which the length of one side in a substantially quadrangle is smaller than the dimension a1 in a plan view. That is, the second region R2 of each upper convex portion 13 is formed so as to be smaller than the first region R1 of each lower convex portion 11.

Here, in FIG. 5, the region including the ball of the thumb and the heel of the sole F of the wearer is defined as the region X shown by dot hatching, while the region other than the region X (for example, the arch of the sole F is supported). The area including the part to be formed) is defined as the area Y indicated by the hatching of diagonal lines.

As shown in FIG. 3, the upper convex portions 13, 13, ... Are formed so that the sizes of the second regions R2, R2, ... Are different depending on the portion of the sole F of the wearer. Specifically, as shown in FIG. 4, each upper convex portion 13 arranged in the region X is formed so that the length of one side of the second region R2 is the dimension b1. On the other hand, each upper convex portion 13 arranged in the region Y is formed so that the length of one side of the second region R2 has either the dimension b2 or the dimension b3. Here, dimension b1 is larger than dimension b2 and dimension b3. Further, the dimension b2 is larger than the dimension b3. Due to the magnitude relationship of each dimension, each upper convex portion 13 in the region X is configured such that its second region R2 is larger than the second region R2 of each upper convex portion 13 in the region Y. There is. That is, each upper convex portion 13 in the region X has a contact area with the sole F of the wearer larger than the contact area of each upper convex portion 13 with the sole F of the wearer in the region Y. It is configured.

Further, as shown in FIG. 3, the plurality of upper convex portions 13, 13, ... Are formed so that their respective protrusion heights differ depending on the portion of the sole F of the wearer. Specifically, each upper convex portion 13 arranged in the region X is formed so that the protruding height thereof is the dimension h0 + h1. On the other hand, each upper convex portion 13 arranged in the region Y is formed so that the protruding height thereof has either the dimension h0 + h2 or the dimension h0 + h3. Here, the dimension h1 is smaller than the dimension h2 and the dimension h3. Further, the dimension h2 is smaller than the dimension h3. Due to the magnitude relationship of each dimension, the protrusion height of each upper convex portion 13 in the region X is configured to be lower than the protrusion height of each upper convex portion 13 in the region Y.

[Action and effect of the embodiment]
As described above, according to the sole 1, when the wearer's foot touches the road surface G due to various movements such as walking, running, or jumping (hereinafter referred to as “grounding”), the road surface G The reaction force received from is transmitted to the plurality of lower convex portions 11, 11, ..., And each upper convex portion arranged at a position where the reaction force overlaps with each lower convex portion 11 on the upper side of the sole main body portion 3. 13 is directly transmitted from each lower convex portion 11 to the sole F of the wearer via each upper convex portion 13. Since the second region R2 of each upper convex portion 13 is smaller than the first region R1 of each lower convex portion 11, the reaction force is applied from each first region R1 toward each second region R2 at the time of touchdown. To be aggregated. As a result, the reaction force is transmitted to various parts of the sole F of the wearer as the pressure amplified from the second region R2 of each upper convex portion 13. As a result, the wearer can recognize the strength of the pressure transmitted to each part of the sole F at the time of touchdown for each part. Therefore, in the sole 1 of the shoe S according to the embodiment of the present invention, it is possible to timely grasp the load applied to each portion of the sole F at the time of touchdown and to easily control the movement of the body.

Further, each lower convex portion 11 is formed in a substantially columnar shape, and each first region R1 is configured as a lower bottom surface in each lower convex portion 11. As a result, each first region R1 is formed in a relatively wide planar shape, so that the reaction force from the road surface G is easily transmitted to each first region R1. As a result, the reaction force generated at the time of touchdown can be appropriately transmitted from each first region R1 toward each second region R2.

Further, the upper convex portions 13, 13, ... Are formed so that the sizes of the second regions R2, R2, ... Are different depending on the portion of the sole F of the wearer. Therefore, the reaction force generated at the time of touchdown can be appropriately transmitted according to each part of the sole F, and an excessive pressure on the part where pain is likely to be felt especially in the sole F can be adjusted.

Further, the upper convex portions 13, 13, ... Are formed so that their respective protrusion heights differ depending on the portion of the sole F of the wearer. Therefore, the reaction force generated at the time of touchdown can be appropriately transmitted according to each part of the sole F, and an excessive pressure on the part where pain is likely to be felt especially in the sole F can be adjusted.

Further, since each upper convex portion 13 in the region X is formed so that the protruding height is lower than the protruding height of each upper convex portion 13 in the region Y, each upper convex portion 13 in the region X is formed. Can be prevented from falling regardless of the magnitude of the reaction force transmitted from each of the corresponding lower convex portions 11.

[Modification 1 of the embodiment]
In the shoe S according to the above embodiment, the upper 2 has a form consisting of only the upper body 2a, but the present invention is not limited to this form. For example, the upper 2 may have an upper body 2a and an insole 2b as in the shoe S according to the first modification shown in FIG.

The insole 2b is made of, for example, a stretchable mesh fabric. That is, it is preferable that the insole 2b has a thickness, a material and a structure such that the thickness and the material can transmit the reaction force of the upper convex portion 13 to the sole of the wearer's foot. As shown in FIG. 6, the insole 2b is configured to cover the lower opening of the upper body 2a and to be located between the sole F of the wearer wearing the shoe S and the sole 1 in the vertical direction. There is.

The insole 2b is integrally formed with the upper body 2a. Specifically, the insole 2b is configured such that each end portion in the foot width direction of the shoe S is fixed to each lower end portion of the upper body 2a by an adhesive or sewing. Further, the respective ends of the insole 2b and the lower ends of the upper body 2a are fixed to the upper surface 5a of the upper peripheral edge 5 by an adhesive or sewing.

The insole 2b is arranged above the upper convex portions 13, 13, .... Specifically, the insole 2b is arranged so that the intermediate portion in the foot width direction of the shoe S faces the upper convex portions 13, 13, ... In the vertical direction.

As described above, according to the shoe S of this modified example, since the upper 2 has the upper body 2a and the insole 2b, it is easier to make shoes as compared with the form in which the upper 2 does not have the insole 2b. can do.

Further, in the shoe S of this modified example, each upper convex portion 13 is configured to abut on the sole F via the insole 2b. Therefore, for example, even when an excessive pressure is applied to the sole F from each upper convex portion 13, the pressure on the sole F can be adjusted by the insole 2b.

[Modification 2 of the embodiment]
Further, in the above embodiment, the upper convex portions 13, 13, ... Show the form in which the upper convex portions 13, 13, ... Directly contact the sole F of the wearer, but the present invention is not limited to this form. For example, as in the shoe S according to the second modification shown in FIG. 7, the upper convex portions 13, 13, ... May be in a form of indirectly contacting the wearer's sole F via the insole 14. ..

The insole 14 is made of a knitted fabric, a woven fabric, a non-woven fabric, a cloth or the like. It is preferable that the thickness and material of the insole 14 is such that the reaction force of the upper convex portion 13 can be transmitted to the sole of the wearer's foot. As shown in FIG. 7, the insole 14 is arranged above the upper convex portions 13, 13, .... Specifically, the insole 14 is arranged so that the intermediate portion of the shoe S in the foot width direction faces the upper convex portions 13, 13, ... In the vertical direction. That is, the insole 14 is arranged between the sole F of the wearer wearing the shoe S and the sole 1. The peripheral edge of the insole 14 may be fixed to the upper surface 5a of the upper peripheral edge 5 of the sole 1 by an adhesive or sewing.

As described above, in the shoe S of this modified example, each upper convex portion 13 is configured to abut on the sole F via the insole 14. Therefore, for example, even when an excessive pressure is applied to the sole F from each upper convex portion 13, the pressure on the sole F can be adjusted by the insole 14.

[Other embodiments]
As the above embodiment, the form of the sole 1 including the sole body portion 3 made of a single material is shown, but the form is not limited to such a form. For example, the sole 1 may have a sole body 3 having an outsole (not shown) made of a hard elastic member having a high hardness and a midsole (not shown) made of a soft elastic material. In such a form, the lower convex portions 11, 11, ... Are formed on the lower surface side of the outsole corresponding to the lower portion of the sole main body portion 3, while the upper surface side of the mid sole corresponding to the upper portion of the sole main body portion 3 is formed. The upper convex portions 13, 13, ... may be formed.

Further, as the above embodiment, a form in which each lower convex portion 11 is formed in a square columnar shape is shown, but the present invention is not limited to this form. For example, each lower convex portion 11 may be formed in a triangular columnar shape or may be formed in a columnar shape. In short, each lower convex portion 11 may be formed in a substantially columnar shape.

Further, in the first modification of the above embodiment, the insole 2b is made of a stretchable mesh-like mesh fabric, but the present invention is not limited to this form. For example, the insole 2b may be in the form of any one of materials such as knit fabric, knitted fabric, woven fabric, non-woven fabric, fabric, resin and foam of rubber.

Further, the insole 2b may be in the form of a plurality of layers. In this form, the materials of each layer may be the same or different.

Further, in the second modification of the above embodiment, the insole 14 shows a form in which the peripheral portion thereof is fixed to the upper surface 5a of the upper peripheral portion 5 of the sole 1 by an adhesive or sewing. Not limited. For example, the insole 14 may be mounted on the insole 14 so that its peripheral edge portion is arranged on the upper surface 5a of the upper peripheral edge portion 5 of the sole 1 and is detachably mounted.

Further, in the above embodiment, the lower end portion of the upper main body 2a is directly fixed to the upper surface 5a of the upper peripheral edge portion 5 by an adhesive, but the present invention is not limited to this embodiment. For example, in the process of assembling the shoes S, an insole (not shown) made of a water-soluble material such as pulpwood was temporarily fixed to the lower end of the upper body 2a and the upper surface 5a of the upper peripheral edge 5 of the sole 1. In addition to forming an intermediate (not shown), a step of immersing the intermediate in an aqueous solution to dissolve and remove only the insole may be included. By going through such a step, shoes can be easily made as in the above-mentioned modification 1.

Further, in the modified example 1 of the above embodiment, the insole 14 shown in the modified example 2 may be arranged on the upper side of the insole 2b.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the invention.

The present invention can be industrially used as sports shoes in various sports such as running and ball games, training shoes in those sports, sneakers for daily use, and rehabilitation shoes.

S: Shoes 1: Sole 2: Upper 2a: Upper body 2b: Insole 3: Sole body 4: Lower peripheral edge 5: Upper peripheral edge 11: Lower convex portion 13: Upper convex portion 13a: Base 13b: Tip Part 14: Insole R1: First area R2: Second area G: Road surface F: Sole

Claims (5)

The sole body that supports the entire sole of the wearer and
A plurality of lower convex portions protruding downward from the lower part of the sole main body toward the road surface side and arranged at intervals from each other.
It is provided with a plurality of upper convex portions that protrude upward from the upper part of the sole main body portion toward the sole side of the wearer and are arranged at positions above the sole main body portion so as to overlap each lower convex portion. ,
Each lower convex portion has a first region in contact with the road surface at the lower portion.
Each of the lower convex portions is formed in a substantially columnar shape and is a quadrangle in a plan view.
The first region is configured as a lower bottom surface in each of the lower convex portions.
Each of the upper convex portions includes a substantially columnar base portion and a tip portion formed integrally with the base portion and tapered upward.
Each upper convex portion is a quadrangle in a plan view, and the horizontal cross section of the tip portion is smaller than the first region of the lower convex portion located below the upper convex portion.
The plurality of lower convex portions are adjacent to each other so that the width of the groove between the lower convex portions adjacent to each other in the predetermined region of the sole main body portion is smaller than the width of the lower convex portion. Ori
The plurality of upper convex portions are adjacent to each other so that the width of the groove between the upper convex portions adjacent to each other in the predetermined region is smaller than the width of the upper convex portions.
Said each of the upper protrusions adjacent to each other, through the groove in between the adjacent upper-side protrusion state, and are integral with one another,
The plurality of upper convex portions are composed of an elastic foam and are fixed to the sole body portion.
At the time of touchdown, the reaction force received from the road surface is transmitted to the plurality of lower convex portions, and the reaction force is arranged on the upper side of the sole main body portion at a position where it overlaps with each of the lower convex portions. A shoe sole structure configured to be directly transmitted from each lower convex portion by the convex portion to the sole of the wearer's foot via each upper convex portion. In the shoe sole structure according to claim 1,
The plurality of upper convex portions are formed so that the height of each protrusion differs depending on the portion of the sole of the wearer, which is a sole structure for shoes. A shoe having the sole structure for shoes according to claim 1 or 2. In the shoes according to claim 3,
Further equipped with an upper attached to the upper side of the shoe sole structure,
The upper is a shoe having an upper body and an insole integrally formed with the upper body. In the shoes according to claim 3 or 4,
A shoe further comprising an insole located above the sole structure for the shoe.

Images