JPWO2018116874A1 - shoes - Google Patents

Abstract

It is an object of the present invention to provide a shoe that is lightweight, can improve the cushioning property and the propulsive force obtained at the time of kicking without impairing the comfort, and can be easily mass-produced with a simple configuration.
As a solution, the shoe main body portion (1) into which the foot (F) is inserted, and the shoe main body portion (1) cover the required range in the length direction on the bottom surface side, and the shoes only at the required position including the position of the front foot portion. A hard plate (2) fixed to the bottom surface side of the main body (1), and a cushion material (3) attached to both ends of the hard plate (2) in the longitudinal direction on the grounding surface side. This is a shoe (10) characterized by that.

Description

  The present invention relates to a shoe that is comfortable to wear and has a configuration that can efficiently convert an impact at landing to a propulsive force when kicking, and is suitable for running and walking.

  As shown in FIG. 6, conventional running shoes and walking shoes (hereinafter simply referred to as shoes) disperse and reduce the impact on the soles at the time of landing, and obtain flexibility and propulsive force when kicking. The cushion material 24 is disposed over the entire 20 soles 22. As a shoe having such a configuration, for example, a configuration disclosed in Patent Document 1 (Japanese Patent Laid-Open No. 2002-85104) is known.

  In addition, the inventor stores the impact at landing as energy, and releases the energy as a repulsive force when kicking with the forefoot, thereby reducing foot fatigue and burden and enabling efficient running and walking The invention of the shoe made in Japanese Patent Laid-Open No. 2010-162318 has been made. Specifically, as shown in FIG. 7, the hard tread plate 31 and the hard ground plate 32 are joined to each other by a joint 34 of the heel part (rear foot part) with an appropriate gap 33 so that the gap 33 is obtained. When an external force that narrows is applied, a leaf spring 35 having a restoring force to return to the original gap 33 is formed, and this leaf spring 35 is attached to the bottom of the shoe with a forefoot portion of a rigid stepping plate 31. It is a shoe of composition.

Patent Document 1: Japanese Patent Laid-Open No. 2002-85104 Patent Document 2: Japanese Patent Laid-Open No. 2010-162318

  In the conventional shoe disclosed in Patent Document 1, cushioning material and a cushioning material are locally disposed on the ground contact surface in order to obtain more effective driving force when kicking during running or walking. When trying to install, pressure is applied to the local area of the sole and the comfort becomes worse. For this reason, there exists a subject that arrangement | positioning of the cushioning material to a ground surface is restrict | limited. Further, the shoe disclosed in Patent Document 2 is complicated and difficult to mass-produce to form a leaf spring having the mechanical strength necessary to receive impact upon landing and to obtain repulsion when kicking. Met. Further, even if a lightweight material is used as the material of the leaf spring, the weight of the entire shoe tends to increase.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a shoe that is light in weight, can improve the cushioning property and the propulsive force obtained at the time of kicking without impairing comfort, and can be easily mass-produced with a simple configuration.

  That is, the present invention covers a shoe body portion into which a foot is inserted and a required range in the length direction of the bottom surface side of the shoe body portion, and is fixed to the bottom surface side of the shoe body portion only at a required position in the front foot portion. And a cushion material attached to at least both end positions in the length direction of the hard plate on the ground contact surface side.

  Moreover, it is preferable that the said required range is the whole length direction of the said shoe main-body part. Thereby, the choice of the attachment position of a cushion material can be increased.

  Moreover, it is preferable that the said required range is the range of the said forefoot part except a toe part, and a heel part. Accordingly, it is possible to improve the flexibility of the shoe main body when kicking and the followability of the hard plate to the shoe main body.

  Moreover, it is preferable that the said cushion material is attached to the position of the said toe part in the bottom face side of the said shoe main-body part. Thereby, it is possible to improve the comfort when kicking and increase the repulsive force.

  Moreover, it is preferable that the said hard plate is formed in the curved shape which protrudes in the ground surface side in the position of the said front leg part. This makes it easier for the hard plate to follow the shoe body when kicking, and the distance to disengage from the heel of the shoe body (the distance that separates) is shortened, so the moment of inertia of the shoe is reduced, and during running It can reduce foot fatigue and burden.

  Moreover, it is preferable that the cross-sectional shape in the width direction of the said hard plate is formed in the waveform. As a result, the weight of the hard plate can be reduced and the strength in the length direction of the hard plate can be increased, and the performance of the hard plate can be maintained over a long period of time.

  Moreover, it is preferable that the said hard plate is formed so that the bending resistance in the range of the said front leg part may become smaller than the bending resistance in the range of a middle leg part to a heel part. As a result, the flexibility of the shoe during traveling can be ensured, and the repulsive force obtained during kicking can be increased.

  Moreover, it is preferable that the said hard plate and the said cushion material protrude in the back side of the said shoe main-body part. This promotes the dispersion and mitigation of impact during landing. In addition, since the range in which the cushion material can be disposed on the grounding surface side of the hard plate is widened, options for the attachment position of the cushion material can be increased, and the cushion material can be disposed according to the user's preference.

  By disposing the hard plate on the bottom surface side of the shoe main body as in the above configuration, the cushioning material can be locally disposed on the ground contact surface of the hard plate without impairing the comfort. Since the hard plate is fixed to the bottom side of the shoe body only at the required position on the forefoot, the shoe body is separated from the heel (rear foot) of the shoe body when the kick plate is kicked off. The bendability can be maintained. By disposing cushioning materials at both ends (toe or forefoot and heel) in the length direction of the ground plane side of the hard plate, there is no need to place cushioning material on the middle foot, Weight reduction is possible.

  Further, by locally disposing the cushion material on the ground contact surface of the shoe, the amount of deformation of the cushion material increases, and the cushioning property and the repulsive force are improved. That is, the impact when landing during running is absorbed by the cushion material of the buttocks and forefoot, and the cushion material of the buttocks is restored along with the weight shift, so that the user wearing the shoes is pushed up and the forefoot part The cushion material will be further compressed. Therefore, the hard plate and the shoe main body are inclined forward, and the return of the shoe can be promoted. Furthermore, when the kicking is started, the compressed cushion material of the forefoot part is restored, so that the body of the user wearing the shoes is pushed upwards and the propulsive force is generated. As described above, it is possible to efficiently convert the energy stored by deforming the cushion material at the time of landing to the propulsive force at the time of kicking. Furthermore, since the configuration can be simplified, shoes that are lightweight and suitable for mass production can be provided.

It is a side view of shoes in a 1st embodiment. It is a perspective view of a hard plate. It is a side view at the time of kicking out of the shoes shown in FIG. It is a side view of shoes in a 2nd embodiment. It is a side view of shoes in a 3rd embodiment. It is a side view of the shoes in a prior art. (Prior Art) It is a side view of the shoes in a prior art. (Prior Art)

  Hereinafter, shoes of the present invention will be described based on embodiments.

(First embodiment)
As shown in FIG. 1, the shoe 10 in the present embodiment includes a shoe main body 1 into which the foot F is inserted, a hard plate 2 having a size that covers a required range in the length direction of the bottom surface of the shoe main body 1, A cushion material 3 attached to the grounding surface side of the hard plate 2 is provided.

  Further, the hard plate 2 is disposed over the entire range in the length direction on the bottom surface side of the shoe main body 1. As such a hard plate 2, a light material having high mechanical strength is suitable. Here, the hard plate 2 is formed of carbon fiber resin, but the material forming the hard plate 2 is not limited to carbon fiber resin. As shown in FIG. 1, the hard plate 2 is formed in a curved shape that protrudes toward the ground surface side at the position of the forefoot when viewed from the side. The hard plate 2 is fixed to the bottom surface of the shoe main body 1 only in a required length range (a required position in the forefoot) including the boundary portion between the ribs and the metatarsals. That is, the hard plate 2 is not fixed in the range from the middle foot portion to the heel portion (rear foot portion) on the bottom surface side of the shoe main body 1, and the hard plate 2 is in contact with and separated from the bottom surface of the shoe main body 1. It is possible to move.

  FIG. 2 is a perspective view of the hard plate 2 as viewed from below. The hard plate 2 is provided with a plurality of ridges 2a with a required interval in the width direction of the hard plate 2. Moreover, the concave strip 2b is formed between the convex strips 2a. That is, on the upper side surface of the hard plate 2, the portion of the ridge 2 a shown in FIG. 2 becomes the concave ridge 2 b, and the concave ridge 2 b on the lower side of the hard plate 2 becomes the ridge 2 a, and the hard plate 2 The cross-sectional shape in the width direction is formed in a corrugated shape. By making the cross-sectional shape in the width direction corrugated, it is advantageous in that the strength (bending strength) in the length direction of the hard plate 2 can be improved while reducing the weight of the hard plate 2.

  Further, the height of the ridge 2a (depth of the ridge 2b) is formed such that the depth in the middle foot and the heel is deeper than the depth in the forefoot. Thereby, the bending resistance (bending strength) of the hard plate 2 in the range of the forefoot part can be made smaller than the bending resistance (bending strength) in the range of the middle foot part to the heel part. The hard plate 2 can also have an upper surface and a lower surface formed on flat surfaces. Thus, by changing the shape of the hard plate 2, it is possible to provide the shoe 10 having a repulsive force and comfort according to the user's purpose and preference.

  Moreover, the cushion material 3 is attached to the forefoot part and the heel part which are the both ends in the length direction of the ground-contact side (lower surface side) of the hard plate 2, respectively. That is, as is clear from FIG. 1, the cushion material 3 is not attached to the portion corresponding to the middle foot portion of the hard plate 2, and when the shoe 10 is simply placed on the ground surface, the cushion material is provided. The portion 3 is grounded to the ground plane, but the portion corresponding to the middle leg portion of the hard plate 2 is separated from the ground plane.

  As shown in FIG. 3, when the user wearing the shoe 10 starts running, when the user kicks the ground, only the forefoot portion of the shoe 10 is grounded, and the portion corresponding to the middle foot portion of the hard plate 2 The range from the heel to the heel is in a state of being separated from the ground and the heel of the shoe main body 1. Thereby, since the flexibility as the shoes 10 is not impaired, the ground can be kicked out smoothly. Further, when landing, the pressure applied to the front foot portion and the heel portion can be distributed over the entire sole of the user by the hard plate 2, and the comfort of the shoe 10 can be improved. .

  Further, the cushion material 3 is disposed at the position of the forefoot portion and the heel portion on the ground contact surface side of the hard plate 2 (at least both end positions in the length direction on the ground contact surface side of the hard plate 2). As such a cushioning material 3, a material excellent in flexibility and elasticity such as EVA (Ethylene-Vinyl Acetate) foam is suitably used. Thus, it is advantageous in that the weight of the shoe 10 is reduced by arranging the cushion material 3 locally on the ground contact surface side of the hard plate 2.

  According to such a configuration of the shoe 10, the impact at the time of landing can be more efficiently taken into the cushion material 3 as elastic energy (repulsive energy). As a result, when the user kicks the ground with the contact surface of the shoe 10, the repulsive energy when the elastic deformation of the cushion material 3 is restored can be applied in the kicking direction as a driving force. Dashi is possible.

(Second Embodiment)
The shoe 10 in the present embodiment is different from the shoe 10 in the first embodiment in the arrangement range of the hard plate 2 to the shoe body 1 and the attachment position of the cushion material 3. Specifically, as shown in FIG. 4, the hard plate 2 is disposed in the length range from the forefoot portion to the heel portion excluding the toe portion on the bottom surface side of the shoe main body portion 1. That is, the toe portion of the shoe 10 in the present embodiment is a non-arranged portion of the hard plate 2. The hard plate 2 is attached to the bottom surface side of the shoe body 1 only at a required length portion (a required position at the forefoot) including a boundary position between the ribs and the metatarsals at the forefoot.

  Thus, by providing the non-arranged portion of the hard plate 2 on the bottom surface side of the shoe body 1, the bending angle of the shoe 10 can be set with the boundary portion between the disposed portion and the non-arranged portion of the hard plate 2 as the bent portion. Can be larger. Thereby, when the user who wears the shoes 10 kicks the ground, the followability of the hard plate 2 to the shoe body 1 can be improved, and the comfort of the shoes 10 can be improved.

  In the shoe 10 according to the present embodiment, the cushion material 3 is additionally disposed on the toe portion which is the non-arranged portion of the hard plate 2 on the bottom surface side of the shoe main body portion 1. The cushion material 3 disposed on the toe portion is added independently from the cushion material 3 attached to both end portions in the length direction on the grounding surface side of the hard plate 2, and the side view shape has a triangular shape. There is no.

  Further, the maximum thickness dimension of the cushion material 3 at the toe portion is formed to be equal to the maximum thickness dimension of the cushion material 3 disposed on the grounding surface side of the hard plate 2. By adopting such a cushioning material 3, it is possible to prevent a whisper caused by the cushioning material 3 at the toe portion suddenly hitting the ground during running or walking. In addition, it is possible to further improve the propulsive force and the comfort when the user wearing the shoes 10 kicks the ground. Furthermore, you may make it vary the elastic coefficient of the cushion material 3 arrange | positioned by the toe part, the forefoot part, and the heel part, respectively.

(Third embodiment)
As shown in FIG. 5, the shoe 10 according to the present embodiment is in a state in which the non-arranged portion of the hard plate 2 is covered with the cushion material 3 of the front foot portion. In other words, the forefoot cushion material 3 and the toe portion cushion material 3 in the second embodiment are integrated. Thereby, compared with 2nd Embodiment, formation and arrangement | positioning of the cushioning material 3 can be simplified, and durability can also be improved.

  Moreover, the cushion material 3 attached to the collar part of the hard plate 2 and the hard plate 2 in this embodiment has the protrusion part 4 which protrudes back rather than the rear end of the shoe main-body part 1 as shown in FIG. Forming. Providing such a projecting portion 4 is advantageous in that it can improve shock absorption at the time of landing and can reduce the burden on the foot.

  Although the present invention has been described in detail above based on the embodiments, the present invention is not limited to the embodiments described above. For example, although the shoe 10 in the embodiment described above is described as a running shoe, it can also be suitably used as a walking shoe.

  In the above embodiment, the configuration in which the cushion material 3 is the ground contact surface of the shoe 10 has been described. However, an outer sole (not shown) is disposed on the bottom surface of the cushion material 3, and the outer sole is connected to the ground contact surface. You may employ | adopt the structure made into. Moreover, you may make it make the bending resistance in the length direction of the hard plate 2 in 1st Embodiment differ. Specifically, by adopting the hard plate 2 in which the bending resistance in the range of the forefoot portion is smaller than the bending resistance in the range of the middle foot portion to the heel portion, the rigid plate 2 is formed in the entire length direction of the shoe main body portion 1. Even if it arrange | positions, it is possible to ensure the flexibility of the shoes 10. FIG. Further, by arranging the hard plate 2 over the entire length direction of the shoe body 1, the shoe 10 can be stably worn.

  Furthermore, in 2nd Embodiment, although the cushion material 3 is arrange | positioned in the toe | tip part (non-arrangement | positioning part of the hard plate 2) of the shoe main-body part 1, the cushion material 3 to the toe | tip part of the shoe main-body part 1 is provided. A configuration in which the arrangement is omitted may be employed. Thereby, the shoes 10 can be further reduced in weight. In contrast to this configuration, the cushion material 3 can be attached to the entire grounding surface side of the hard plate 2. Thereby, when running or walking on rough terrain, the stability of the shoe 10 is improved and the hard plate 2 can be protected.

And it is also possible to employ | adopt the structure which combined suitably the 1st Embodiment thru | or 3rd Embodiment demonstrated above and a modification.

Claims (8)

The shoe body where the foot is inserted;
Covering the required range in the length direction of the bottom surface of the shoe body, and a rigid plate fixed to the bottom surface of the shoe body only at the required position in the forefoot,
Cushion materials attached to at least both end positions in the length direction of the ground plane side of the hard plate,
A shoe characterized by comprising:   The shoe according to claim 1, wherein the required range is the entire length direction of the shoe main body.   The shoe according to claim 1, wherein the required range is a range from the forefoot part to a heel part excluding a toe part.   The shoe according to claim 3, wherein the cushion material is attached to a position of the toe portion on the bottom side of the shoe main body portion.   The shoe according to any one of claims 1 to 4, wherein the hard plate is formed in a curved shape protruding toward the ground surface side at the position of the forefoot part.   The shoe according to any one of claims 1 to 5, wherein a cross-sectional shape of the hard plate in a width direction is formed in a corrugated shape.   The said hard plate is formed so that the bending resistance in the range of the said forefoot part may become smaller than the bending resistance in the range of a midfoot part to the buttocks part, The one of the Claims 1-6 characterized by the above-mentioned. The shoes according to one item. The shoe according to any one of claims 1 to 7, wherein the hard plate and the cushion material protrude to the rear side of the shoe main body.

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