The present application claims priority to and incorporates by reference the entire contents of Japanese Patent Application No. 2021-162466 filed in Japan on Oct. 1, 2021.
The present invention relates to a shoe component to be used for an upper of a shoe and a shoe including the upper using the shoe component.
A shoe includes an upper that covers a foot of a wearer, and a sole that covers the sole of the foot of the wearer. When the wearer kicks the ground during walking or running, the MP joint of the foot of the wearer flexes, and the foot of the wearer tends to escape from the upper. Therefore, the upper of the shoe is required to fit the foot of the wearer and to prevent the foot of the wearer from escaping even if the MP joint of the foot of the wearer flexes at the time of kicking the ground.
In order to enhance the fit of an upper to the foot of a wearer, a lacing fitting structure is provided on the upper. JP 5444558 B discloses a shoe in which eyelets are provided on a side panel that is not surface-jointed to an exterior material of a main upper. The shoe disclosed in JP 5444558 B allows a wearer to select whether to fit the side panel or to fit both the side panel and the main upper to the foot of the wearer in order to adjust the fit according to the preference of the wearer.
A shoe having a lacing fitting structure includes a tongue that covers an instep of a foot of a wearer. The shoe disclosed in JP 5444558 B cannot adjust the fit of the tongue to the instep of the foot of the wearer, and there is room for further improving the fit to the foot of the wearer.
The present invention has been made in view of the above, and a purpose of the present invention is to obtain a shoe component capable of forming an upper that is highly fitted to a foot of a wearer.
Hereinafter, embodiments of a shoe component and a shoe according to the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited by the embodiments. In the following embodiments, the same or common parts are denoted by the same reference signs, and the description thereof will not be repeated.
In the following embodiments, a direction in which a heel center axis, which is a perpendicular line passing through the heel center of a sole in a plan view of a shoe, extends is referred to as a front-rear direction, and a direction orthogonal to the front-rear direction in a plan view of the shoe is referred to as a foot width direction.
In addition, a direction from the heel toward the toe of the shoe in the front-rear direction is referred to as a front, and a direction from the toe toward the heel of the shoe in the front-rear direction is referred to as a rear.
In addition, a median side of a foot in the anatomical position is referred to as a medial foot side, and the side opposite to the median side of the foot in the anatomical position is referred to as a lateral foot side. That is, the side closer to the median line in the anatomical position is referred to as the medial foot side, and the side farther from the median line in the anatomical position is referred to as the lateral foot side.
Furthermore, a height direction means a direction orthogonal to both the front-rear direction and the foot width direction unless otherwise specified, and a thickness means a dimension in the height direction unless otherwise specified.
The main upper 11 is formed with a first opening 1A into which the foot of the wearer is inserted and a second opening 1B connected to the first opening 1A in front of the first opening 1A. The main upper 11 is provided with upper eyelets 111 through which a shoelace 3 is threaded at an edge of the second opening 1B. The main upper 11 includes an insole that is not illustrated.
The tongue eyelets 23 are provided in a part of the tongue 121 on the medial foot side from the center in the foot width direction and a part of the tongue 121 on the lateral foot side from the center in the foot width direction. The tongue eyelets 23 include two tongue eyelets provided in the medial-foot tongue portion 21 and one tongue eyelet provided in the lateral-foot tongue portion 22. The tongue eyelets 23 formed in the medial-foot tongue portion 21 and the tongue eyelet 23 formed in the lateral-foot tongue portion 22 are alternately arranged in the front-rear direction. The shoe component 12A is formed of a material having different stretchability from the main upper 11.
The tongue 121, the medial wing 122, and the lateral wing 123 each have an outer surface material serving as an outer surface and an inner surface material serving as an inner surface. The inner surface is a surface that contacts the foot of wearer, and the outer surface is a surface on the back side of the inner surface. Each tongue eyelet 23 is formed by a part of the outer surface material sandwiched between slits 24 formed in parallel in the outer surface material. In the tongue eyelet 23, the shoelace 3 is drawn between the outer surface material and the inner surface material through one slit 24, and the shoelace 3 is drawn out from between the outer surface material and the inner surface material through the other slit 24. By using a part of the outer surface material of the shoe component 12A as the tongue eyelet 23, it is possible to achieve a parts-less structure as compared with a structure in which ring-shaped components are attached to the outer surface material to form the tongue eyelet 23. However, the tongue eyelet 23 is not limited to the part sandwiched between the slits 24 formed in parallel in the outer surface material. That is, a ring-shaped component may be attached to each of the medial-foot tongue portion 21 and the lateral-foot tongue portion 22 to be used as the tongue eyelet 23. The slits 24 extend in the foot width direction. Since the slits 24 extend in the foot width direction, it is possible to reduce resistance when the shoelace 3 is threaded through the tongue eyelets 23. Note that, the slits 24 may extend in the front-rear direction.
When the wearer wears the shoe 50 and then pulls the first part 31 of the shoelace 3, the edge on the medial foot side and the edge on the lateral foot side of the second opening 1B of the main upper 11 are drawn toward the center in the foot width direction, and the main upper 11 tightens the foot of the wearer from the foot width direction. On the other hand, when the wearer pulls the second part 32 of the shoelace 3, the edge on the medial foot side and the edge on the lateral foot side of the second opening 1B of the main upper 11 are drawn toward the center in the foot width direction, and the medial-foot tongue portion 21 and the lateral-foot tongue portion 22 of the shoe component 12A are also drawn toward the center in the foot width direction. Since the tips of the medial wing 122 and the lateral wing 123 of the shoe component 12A are sewn to the insole, when the medial-foot tongue portion 21 and the lateral-foot tongue portion 22 are drawn toward the center in the foot width direction, the arch formed by the shoe component 12A is lowered, and the shoe component 12A holds the instep of the foot of the wearer. Therefore, when the second part 32 of the shoelace 3 is pulled, the shoe component 12A holds the instep of the foot of the wearer, and the main upper 11 tightens the foot of the wearer from the foot width direction. Since the shoe component 12A is formed of a material having different stretchability from the main upper 11, the wearer feels a difference in the hold on the foot when the first part 31 of the shoelace 3 is pulled and when the second part 32 is pulled.
In the shoe component 12A according to the first embodiment, the number of the tongue eyelets 23 of the medial-foot tongue portion 21 is greater than the number of the tongue eyelets 23 of the lateral-foot tongue portion 22. For this reason, when the second part 32 of the shoelace 3 is pulled, the medial-foot tongue portion 21 is more strongly drawn to the center in the foot width direction than the lateral-foot tongue portion 22. Therefore, the shoe 50 using the shoe component 12A according to the first embodiment can hold the foot of the wearer on the medial foot side more strongly than on the lateral foot side when the second part 32 of the shoelace 3 is pulled.
In this manner, the shoe 50 using the shoe component 12A according to the first embodiment fits the foot of the wearer differently when the first part 31 of the shoelace 3 is pulled and when the second part 32 is pulled. Therefore, the wearer of the shoe 50 using the shoe component 12A according to the first embodiment can wear the shoe with the tightness that suits the preference of the wearer. In addition, since the shoe component 12A according to the first embodiment includes the medial wing 122 and the lateral wing 123 in addition to the tongue 121, the shoe component 12A can hold the instep of the foot of the wearer in a wrapping manner. In this manner, by using the shoe component 12A according to the first embodiment, it is possible to form the upper 1 that is highly fitted to the foot of the wearer.
Although the structure in which two tongue eyelets 23 are provided in the medial-foot tongue portion 21 and one tongue eyelet 23 is provided in the lateral-foot tongue portion 22 has been exemplified, the number of tongue eyelets is not limited to the exemplified numbers. For example, the number of tongue eyelets 23 can be different from the exemplified numbers, such as three tongue eyelets in the medial-foot tongue portion 21 and two tongue eyelets in the lateral-foot tongue portion 22.
In the shoe component 12B according to the second embodiment, the number of the tongue eyelets 23 of the lateral-foot tongue portion 22 is greater than the number of the tongue eyelets 23 of the medial-foot tongue portion 21. For this reason, when a second part 32 of a shoelace 3 is pulled, the lateral-foot tongue portion 22 is more strongly drawn to the center in the foot width direction than the medial-foot tongue portion 21. Therefore, a shoe 50 using the shoe component 12B according to the second embodiment can hold a foot of a wearer on the lateral foot side more strongly than on the medial foot side when the second part 32 of the shoelace 3 is pulled.
In the shoe component 12C according to the third embodiment, the tongue eyelet 23 is provided in the lateral wing 123 of the lateral-foot tongue portion 22, and the tongue eyelet 23 of the lateral-foot tongue portion 22 is away from the center in the foot width direction. Therefore, in a shoe 50 using the shoe component 12C according to the third embodiment, when a second part 32 of a shoelace 3 is pulled, the lateral wing 123 of the lateral-foot tongue portion 22 of the shoe component 12C is drawn toward the center in the foot width direction, and the instep of a foot of a wearer is not pressed by a part of the tongue 121 on the lateral foot side from the center in the foot width direction. For this reason, the shoe 50 using the shoe component 12C according to the third embodiment makes the contact with the instep of the foot of the wearer softer and improves the comfort of the wearer.
A shoe 50 using the shoe component 12D according to the fourth embodiment can allow a wearer to select which of the tongue eyelets 23 arranged in the foot width direction to thread a shoelace 3. When the shoelace 3 is threaded through the tongue eyelets 23 close to the center in the foot width direction among the tongue eyelets 23 arranged in the foot width direction, the hold on the instep of the foot of the wearer becomes stronger, and when the shoelace 3 is threaded through the tongue eyelets 23 away from the center in the foot width direction, the hold on the instep of the foot of the wearer becomes weaker. For this reason, the wearer of the shoe 50 using the shoe component 12D according to the fourth embodiment can customize the hold on the instep of the foot. In addition, by changing the tongue eyelets 23 through which the shoelace 3 is threaded in the front-rear direction, it is possible to change the hold on the instep of the foot of the wearer in the front-rear direction. For example, the wearer can customize the hold by making the hold on the instep near the toe weaker and the hold near the ankle stronger.
Here, the shoe component 12E having a structure including the tongue 121 and the medial wing 122 without including the lateral wing 123 has been described, but the shoe component 12E may have a structure including the tongue 121 and the lateral wing 123 without including the medial wing 122. Since the shoe component 12E has a structure including the tongue 121 and the lateral wing 123, the shoe 50 using the shoe component 12E can enhance the hold on the instep of the foot of the wearer on the lateral foot side from the center in the foot width direction.
In the shoe 50 using the shoe component 12F according to the sixth embodiment, since a lateral wing 123 and a medial wing 122 are fixed to a main upper 11 and an insole similarly to the shoe 50 using the shoe component 12A according to the first embodiment, the position of the shoe component 12F is hardly displaced.
A shoe component according to the present invention has an effect of forming an upper that is highly fitted to a foot of a wearer.
The configurations described in the above embodiments merely show examples of the present invention and can be combined with another known technique, and a part of each configuration can be omitted or changed without departing from the gist of the present invention.
Number | Date | Country | Kind |
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2021-162466 | Oct 2021 | JP | national |