JP2005027818A - Stud body and sole of sports shoe - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sports shoe used by both of a user having a right preferred foot and by a user having a left preferred foot, having a requisite minimum weight, and having a suitable anti-slip function. <P>SOLUTION: In an anti-slip stud body 1 detachably attached to a sole 4 of the sports shoe and the sole 4, the stud body 1 uses the sole 4 side as a base portion and has anti-slip projections 22 on the side of a ground contact surface of the base, the outer periphery of the base 21 has a rotation symmetrical shape, the sole 4 has attached portions 41 each for attaching and detaching the stud body 1 thereto, the peripheral part of the attached portion 41 has a recessed portion 42 engaging to the outer peripheral shape of the base 21 of the stud body 1, and the corners of the outer peripheral edge of the recessed portion 42 are provided with engagement marks 44 expressed by letters and/or symbols. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a stud body and a sole of a sports shoe used in sports such as golf, baseball, and the like in which a right foot and a left foot perform different motions.
[0002]
[Prior art]
For example, Japanese Patent Application Laid-Open No. 2001-299406 has proposed a shoe sole structure for sports shoes used in sports such as golf, baseball, and the like in which the right foot and the left foot perform different motions. The shoe sole of the left foot has a streak as a protruding part in the toe direction, and the sole of the right foot has a streak as a protruding part in the heel direction for use by right-handed golfers. It has a suitable structure.
[0003]
Japanese Patent Laid-Open No. 2001-299406
[0004]
Moreover, in what is shown in Unexamined-Japanese-Patent No. 2002-45203, the shoe sole in which a slip is suppressed is shown even if it uses a right-handed golfer or a left-handed golfer. This sole has a toe side slip wall and a heel side slip wall, for example, when a right-handed golfer uses it for the left foot or when used for the right foot. It is arranged to have a prevention function.
[0005]
JP 2002-45203 A
[0006]
Moreover, in the baseball shoes, as shown in Japanese Patent Laid-Open No. 9-173104, the shear stress acting on the sole and its direction during all operations such as batting, throwing and running in baseball games are analyzed, and spike shoes A protruding piece is provided.
[0007]
JP-A-9-173104
[0008]
[Problems to be solved by the invention]
However, in the method disclosed in Japanese Patent Laid-Open No. 2001-299406, for example, a right-handed golfer shoe and a left-handed golfer shoe can be adapted to the movement of the left foot and the right foot when used by a right-handed user, for example. However, it was not possible to say that the production efficiency was good, and as a result, the cost was increased.
[0009]
Moreover, although what is shown in Unexamined-Japanese-Patent No. 2002-45203 can respond to the use of a right-handed golfer or the use of a left-handed golfer, since it can be used for both feet, a protrusion other than the minimum is necessary. Are also disposed, resulting in an increase in weight and a decrease in the anti-slip function of each foot.
[0010]
In addition, in a baseball shoe as disclosed in Japanese Patent Laid-Open No. 9-173104, it is known that when only the operation such as running is regarded as important, it is only necessary to arrange the projecting pieces in a bilaterally symmetric shape. As shown in FIG. However, when paying attention to the pitcher's pitching motion, it is known that a shearing force significantly different from other motions is applied only to the base ball portion of the shaft foot.
That is, in the pitcher's pitching operation, a pitcher plate formed of a hard plate is embedded on the mound perpendicularly to the pitching direction, and in the pitching motion, if the pitcher is a right footer, the right foot is the length of the pitcher plate. The direction of the shoe sole and the longitudinal direction of the shoe sole are made parallel to each other. Therefore, if the protruding piece of the base ball portion of the shaft foot is not arranged so as to be parallel to the longitudinal direction of the pitcher plate, that is, the longitudinal direction of the shoe sole, the grip force cannot be exhibited more stably. .
Therefore, although what is disclosed in Japanese Patent Application Laid-Open No. 9-173104 is considered to be usable for both the right foot and the left foot, it is not optimal for each operation in terms of a shaft foot during pitching.
[0011]
The present invention has been made in view of such a conventional situation, and can be used by a right-handed user or a left-handed user, and has a suitable anti-slip function with a minimum necessary weight. The purpose is to provide.
[0012]
[Means for Solving the Problems]
To achieve the above object, the stud body and sole of the sports shoe of the present invention are a non-slip stud body and sole that are detachably attached to the sole of the sports shoe, and the stud body is the shoe. The base part is a base part, the base part has a non-slip protrusion on the grounding surface side, the outer peripheral shape of the base part is rotationally symmetric, and the shoe sole is for attaching and detaching the stud body. It has a to-be-attached part, It has a recessed part engaged with the outer periphery shape of the said base part of the said stud body around the said to-be-attached part.
[0013]
The present invention has at least one inclined non-slip protrusion having a shape in which the elevation angle of at least one protrusion side surface is inclined at an acute angle with respect to the extended surface of the base part as the anti-slip protrusion. The present invention relates to a stud body and a shoe sole of a sports shoe.
[0014]
The present invention relates to a sports shoe stud body and a shoe sole, wherein two or more inclined anti-slip protrusions having the same inclination direction are provided on one side of the outer periphery of the base portion.
[0015]
The present invention relates to a stud body for a sports shoe, wherein all the inclined anti-slip protrusions have the same inclination direction.
[0016]
In the present invention, the outer peripheral shape of the base portion is a regular polygonal shape, and two or more inclined anti-slip protrusions are provided on one side of the outer periphery so as to be inclined in a direction perpendicular to the one side. Related to a stud body and a sole of a sports shoe
[0017]
In the present invention, the outer peripheral shape of the base portion is a shape in which the vertices of a regular polygon shape are connected by the same arc, and two or more inclined anti-slip protrusions on one side of the outer periphery are formed at both ends of the one side. The present invention relates to a stud body and a shoe sole of a sports shoe, which are provided so as to be inclined in a direction perpendicular to a line segment connecting apexes.
[0018]
The present invention relates to a stud body and a shoe sole of a sports shoe, wherein all of the anti-slip protrusions are the inclined anti-slip protrusions.
[0019]
The present invention relates to a stud for sports shoes characterized in that a mark or / and figure engagement mark is provided at the apex of the outer peripheral edge of the recess provided on the shoe sole.
[0020]
In the present invention, the outer peripheral shape of the base portion is a shape in which the apexes of an equilateral triangle are connected by the same arc, and two or more inclined anti-slip protrusions are provided on one side of the outer periphery of the base portion. One or more inclined anti-slip protrusions are provided on the base portion other than the one side, and all the inclined anti-slip protrusions are connected to the line segment connecting the vertices at both ends of the one side. The present invention relates to a stud body and a shoe sole of a sports shoe, which are provided so as to be inclined in a vertical direction.
[0021]
Further, in the present invention, the outer peripheral shape of the base portion is a shape in which the vertices of an equilateral triangle are connected by the same arc, and all the anti-slip protrusions are the inclined anti-slip protrusions, and the base portion Two or more inclined anti-slip protrusions are provided on one side of the outer periphery of the outer periphery, and one or more inclined anti-slip protrusions are provided on the base portion other than the one side, The present invention relates to a stud body and a shoe sole of a sports shoe, characterized in that the tilt direction of the inclined anti-slip protrusion is the same, and a stud body and a shoe sole of a sports shoe.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings.
[0023]
FIG. 1 is an overall perspective view of a stud body 1 according to an embodiment of the present invention.
As shown in FIG. 1, the stud body 1 includes a base portion 21, a non-slip protrusion portion 22, and an attachment portion 3.
[0024]
FIG. 2 is a plan view when the stud body 1 is similarly attached to the shoe sole 4.
[0025]
FIG. 3 is an overall plan view of the shoe sole 4 according to one embodiment of the present invention. As shown in FIG. 3, the shoe sole 4 is provided with a recess 42, and the left foot is provided with a recess 42 in an inverted shape so that the position and shape of the recess 42 on the right foot are mirror images. Yes.
[0026]
Fig. 4 shows the foot pressure distribution applied to the ground from the sole, that is, the sole 4 during the impact in the swinging motion of a right-handed golfer, as seen from the sole direction, with the direction of shear stress added. Is.
From FIG. 4, it can be seen that a shear stress in a substantially toe direction is applied to the left foot from the shoe sole 4 to the ground. Therefore, by providing the left foot with a slip stopper that substantially corresponds to the toe direction, it is possible to effectively exert a grip force against a shear stress.
[0027]
Similarly, from FIG. 4, it can be seen that the right foot is subjected to shear stress from the sole 4 to the ground on the outer side. Therefore, the gripping force against the shear stress can be effectively exhibited by providing the right foot with a slip stopper corresponding to the outer side rearward direction.
[0028]
Specifically, in the forefoot part, when the outer side is rearward with respect to the longitudinal direction of the shoe sole 4, the direction of the shear stress applied to the left foot is in the range of −16 degrees to 44 degrees, and the right foot The direction of the shear stress applied to is in the range of 104 to 164 degrees. Therefore, it can be seen that the shear stress applied to the left foot and the shear stress applied to the right foot form an angle of about 120 degrees. Therefore, it can be understood that the shear stress applied to the right foot can be dealt with by rotating the anti-slip provided on the left foot 120 degrees to the rear side of the outer side.
That is, as shown in FIG. 7, the left foot is rotated approximately 120 degrees toward the toe, and the right foot is rotated 120 degrees rearward on the instep side. It turns out that the grip force with respect to the shearing stress added to each leg can be effectively exhibited by rotating and attaching the stud body 1 which is a non-slip | skid in the made direction.
[0029]
Therefore, the outer peripheral shape of the base portion 21 of the stud body 1 is a rotationally symmetric shape. A rotationally symmetric shape is a shape having the same property as the figure at the first position every time a figure is rotated around a certain axis by a certain angle. Specifically, as shown in FIG. Equilateral triangles, regular tetragons, regular pentagons, regular hexagons, stars, and shapes that are also provided with incisions and projections so as to be rotationally symmetric, and incisions and projections that are rotationally symmetric to circles. It is the provided shape.
[0030]
In addition, as the rotationally symmetric shape, as shown in FIG. 6, a regular triangle, a regular square, a regular pentagon, a regular hexagon, a star shape, and a shape in which cuts and protrusions are provided so that these shapes are also rotationally symmetric. It is good also as a shape which connected each vertex of these by the same circular arc. By forming the vertices into a shape connected by the same arc, the angle formed by adjacent sides of each vertex portion increases, and damage to the vertex portion can be prevented. Moreover, in order to prevent the bending and breakage of each vertex, it is good also as a shape which rounded the tip of the vertex with the circular arc.
[0031]
The rotationally symmetric angle of the rotationally symmetric shape may be 120 degrees in an event where the directions of the shear stress applied to the left foot and the right foot are different by 120 degrees as in a golf shoe, for example.
FIG. 7 is an overall plan view when the stud body 1 according to an embodiment of the present invention is attached to the shoe sole 4, but when the rotational symmetry angle is 120 degrees, as shown in FIG. By rotating the stud body 1 by one vertex and attaching it to the attached portion 41 of the right foot forefoot at the position corresponding to the attached portion 41 of the left part, the left foot and the right foot with one kind of shoe sole and stud body It is possible to correspond to both movements.
[0032]
Similarly, in the other events, the outer peripheral shape of the base portion 21 of the stud body 1 may be formed so as to have a rotationally symmetric shape at an angle formed by the direction of the shear stress applied to the left foot and the right foot. Specifically, as shown in FIG. 5, in the case where the direction of the shear stress applied to the left foot and the right foot is 90 degrees different, the outer peripheral shape of the base portion 21 is a shape that is rotationally symmetric by 90 degrees, that is, a quadrilateral, Although not shown in the drawings, the shape may be a shape in which a cutout or a convex shape is provided on each side of the quadrangle.
[0033]
In the case where the direction of the shear stress applied to the left foot and the right foot is different by about 70 degrees, the outer peripheral shape of the base portion 21 is a shape that is rotationally symmetric by 72 degrees, that is, a pentagon, a star, etc. A shape in which a notch or a convex shape is provided on each side of a pentagon or a star may be used.
[0034]
Further, the outer peripheral shape of the base portion 21 is a hexagon or a shape provided with a notch or a convex shape on each side of the hexagon, that is, a 60-degree rotationally symmetric shape, so that the direction of the shear stress applied to the left foot and the right foot is 60. Depending on the individual's form and preference, the anti-slip direction can be rotated by 60 degrees for items that differ in degree, as well as for golf shoes that differ in the direction of the shear stress applied to the left and right feet by 120 degrees. , You will be able to respond more finely.
[0035]
As shown in FIG. 13, when a left-handed user uses it, it can respond by attaching the stud body 1 in the direction which becomes a mirror image with the direction attached when the right-handed user uses it.
That is, for example, in a golf shoe, the stud body 1 may be attached by rotating the right body in the direction of the toe substantially and the left foot in the direction opposite to the rear side of the outer side.
In this way, by changing the mounting direction between right-handed users and left-handed users, right-handed users and left-handed users with one type of shoe sole and stud body It is possible to correspond to both.
[0036]
As shown in FIG. 1, as a means for preventing slipping, it is preferable to provide a slip preventing projection 22 on the grounding surface side on the base portion 21 of the stud body 1. The anti-slip protrusion 22 may have a shape in which an elevation angle 26 of at least one protrusion side surface 24 is inclined at an acute angle with respect to the extended surface 25 of the base portion 21.
8 is a cross-sectional view taken along the line II of FIG. As shown in FIG. 8, the anti-slip protrusion 22 is formed of an inclined anti-slip protrusion 22 b having an elevation angle 26 of at least one protrusion side surface 24 inclined at an acute angle with respect to the extended surface 25 of the base portion 21. By doing so, the anti-slip function can be exhibited more effectively.
Here, the elevation angle 26 of the inclined anti-slip protrusion 22 b is an angle formed by the protrusion side surface 24 of the inclined anti-slip protrusion 22 b and the extended surface 25 of the base portion 21. Further, the inclination direction 27 means that the elevation angle 26 of the inclined anti-slip projection 22b is decomposed into a direction parallel to the extension surface 25 of the base portion 21 and a vertical direction of the extension surface 25 of the base portion 21. This is the direction of the component parallel to the extended surface 25.
[0037]
FIG. 9 is a view showing a state in which shear stress is applied from the shoe sole 4 in the same direction as the inclined direction 27 of the protruding side surface 24 of the inclined anti-slip protruding portion 22 b of the stud body 1. Similarly, FIG. 10 is a view showing a state in which shear stress is applied from the shoe sole 4 in a direction opposite to the inclined direction 27 of the protruding side surface 24 of the inclined anti-slip protruding portion 22 b of the stud body 1.
As shown in FIG. 9, when a shear stress is applied from the sole 4 in the same direction as the inclined direction 27 of the protruding side surface 24 of the inclined anti-slip protrusion 22b, the inclined anti-slip protrusion 22b tries to oppose the ground. It is possible to effectively exert the grip force against the rising and shearing stress.
Similarly, as shown in FIG. 10, when a shear stress is applied from the shoe sole 4 in the direction opposite to the inclined direction 27 of the protruding side surface 24 of the inclined anti-slip protrusion 22b, the inclined anti-slip protrusion 22b Since it moves so that it slides, it can prevent resisting the ground unnecessarily.
[0038]
Further, by providing two or more inclined anti-slip protrusions 22b having the same inclination direction 27 on one side of the outer periphery of the base portion 21, a grip force in the inclination direction can be more effectively exhibited. .
[0039]
Further, by providing all the inclined anti-slip protrusions 22b so as to be inclined in parallel in the same direction, the grip force in the inclined direction can be more effectively exhibited.
[0040]
As shown in FIG. 2, when the outer peripheral shape of the base portion 21 is a regular polygon shape or a shape in which the vertices of the regular polygon shape are connected by the same arc, a line segment connecting the vertices located at both ends of the side is used. By providing two or more inclined non-slip protrusions 22b in a direction perpendicular to the inclined direction, the projected length of one side in the inclined direction 27 is the longest, and therefore, more inclined anti-slip protrusions 22b on one side. Can be provided, and the grip power can be further increased.
[0041]
Moreover, as shown in FIG. 1, you may provide a small protrusion in the grounding surface of a non-slip | skid protrusion part. By providing the small protrusion 29 on the ground contact surface of the non-slip protrusion, the grip force can be further increased.
[0042]
As a method for detaching the stud body 1 from the shoe sole 4, as shown in FIG. 8, it is preferable to provide an attached portion 41 corresponding to the attaching means 31 of the stud body 1 on the shoe sole 4.
In addition, in order to rotate and attach the stud 1, the attachment means 31 is provided in the position used as the center of the rotationally symmetrical shape of the outer periphery shape of the stud 1.
[0043]
The attachment means 31 of the stud body 1 may be a structure that can arbitrarily fix the direction of the stud body 1.
Specifically, as shown in FIG. 8, the through hole 23 provided in the base portion 21 of the stud body 1 can be engaged with the attached portion 41 such as a female screw provided in the shoe sole 4. It is preferable to insert the shaft portion 32 having the attachment means 31 such as a male screw and engage the attachment means 31 and the attached portion 41.
[0044]
FIG. 11 is a perspective view of the stud body 1 and the shoe sole 4 when the extension attachment member 33 is provided as attachment means.
As shown in FIG. 11, as an attachment means, the stud body 1 is provided with an extension attachment member 33 extending in three directions from the base portion 21 via the shaft portion 32, and the shoe sole 4 corresponds to the shape of the extension attachment member 33. By providing the extension attachment engaging portion 43 to be engaged, the stud body 1 can be engaged only in the direction that matches the three directions of the extension attachment member 33 of the base portion 21 of the stud body 1. After engaging the extension attachment member 33 with the extension attachment engagement portion 43, the stud body 1 is rotated, and the extension attachment member 33 is fitted into the space 44 provided continuously from the extension attachment engagement portion 43, thereby the stud. The body 1 is fixed to the sole 4.
In this case, since the extension attachment members 33 have three directions, that is, each has an angle of 120 degrees, the stud body 1 can be attached in a 120-degree rotationally symmetric direction.
[0045]
As shown in FIG. 8, a recess 42 that engages with the outer peripheral shape of the base portion 21 of the stud body 1 is provided around the attached portion 41 of the shoe sole 4. By mounting the stud body 1 in the recess 42, the stud body 1 can be prevented from rotating carelessly.
[0046]
The shape of the recess 42 is determined by the direction of the shear stress applied to the right foot and the left foot of the corresponding item and the outer peripheral shape of the stud body 1.
As shown in FIG. 4, for example, in a golf operation, if the front foot part of the left foot is in the substantially toe direction, specifically, the outer back side is the forward direction with respect to the longitudinal direction of the shoe sole 4, A shear stress in the direction of 44 degrees is applied from the shoe sole 4.
Further, assuming that the right foot has the outer rear side, specifically, the outer rear side with respect to the longitudinal direction of the shoe sole 4, the shear stress in the direction from 104 degrees to 164 degrees is generated from the shoe sole 4. It has been added.
Therefore, as shown in FIG. 7, in the forefoot part, the stud body 1 has a direction that opposes the shear stress of the anti-slip protrusion 22 and the inclined anti-slip protrusion 22 b substantially in the toe direction and in the direction toward the rear side of the outer side. It is good to provide the recessed part 42 so that can be attached.
Specifically, as shown in FIG. 3, if one side is a positive direction when the outer side is rearward with respect to the longitudinal direction of the shoe sole 4, the direction corresponds to −16 degrees to 44 degrees. In this case, the other side is a direction corresponding to 104 degrees to 164 degrees when the rear side on the back side is a positive direction with respect to the longitudinal direction of the shoe sole 4, which is the shear stress applied to the right foot. Will be equal.
Therefore, it is possible to cope with both the shear stress applied to the right foot and the shear stress applied to the left foot.
[0047]
Similarly, as shown in FIG. 4, it can be seen that a shear stress is applied to the heel portion in the rearward direction on both the left foot and the right foot. Specifically, if the left foot is the forward direction of the outer side with respect to the longitudinal direction of the shoe sole 4, the outer foot side is uniformly 118 degrees with respect to the right foot. Assuming the positive direction, a shearing stress is applied in the direction from 103 degrees to 133 degrees.
Therefore, as shown in FIG. 3, the direction against the shear stress of the anti-slip protrusion 22 and the inclined anti-slip protrusion 22 b is 103 on the outer back side, that is, on the outer side rear side with respect to the longitudinal direction of the shoe sole 4. It is good to provide the recessed part 42 so that the stud body 1 can be attached to the direction which turns to the direction of 133 degree from 1 degree.
[0048]
FIG. 12 is an overall plan view of a shoe sole of a golf shoe in which a stud body according to an embodiment of the present invention is attached to the shoe sole.
As shown in FIG. 12, it is preferable to provide engagement marks 45 by characters and figures at the apex portion of the outer peripheral edge 46 of the recess 42 on the shoe sole 4.
[0049]
Specifically, in the case of golf shoes, in the left foot, the direction in which a right-handed user wants to have a gripping force, that is, the direction that opposes the shear stress of the anti-slip protrusion 22 and the inclined anti-slip protrusion 22b is approximately. When the stud body 1 is attached so as to be in the toe direction, an engagement mark 45 such as “right” or “R” may be provided at the apex portion facing the direction against the shear stress. Further, the engagement mark 45 may be a symbol such as a circle.
[0050]
Moreover, when a left-handed user uses, it is necessary to attach the stud body 1 in the direction which becomes a mirror image with the direction attached when the right-handed user uses. Therefore, it is preferable to provide an engagement mark 45 such as “left” or “L” in the vicinity of the apex at a position that becomes a left-right mirror image with the mark 44 provided for a right-handed user. Further, the engagement mark 45 may be a symbol that can distinguish the difference from the symbol provided on the right foot, such as a cross.
[0051]
The method of providing the engagement mark 45 may be formed by processing the mold to form irregularities at the same time when the shoe sole 4 is formed, or by providing a print or a sticker on the shoe sole 4. May be.
【Example】
[0052]
Hereinafter, more specific description will be made using examples.
[0053]
(Example 1)
FIG. 12 shows a stud body and a sole body of a golf shoe according to one embodiment of the present invention.
[0054]
The outer peripheral shape of the base part 21 of the stud body 1 was a shape in which the vertices of an equilateral triangle were connected by the same arc.
This is because the direction of the shear stress applied to the right foot and the direction of the shear stress applied to the left foot are at an angle of about 120 degrees as shown in FIG.
[0055]
All the anti-slip protrusions 22 of the stud body 1 are inclined anti-slip protrusions 22b as shown in FIG. This is because the tilting anti-slip protrusion 22b stands up in the direction in which the grip force is desired to be effectively exerted, and the inclined anti-slip protrusion 22b is opposite in the direction opposite to the direction in which the grip force is desired. This is because it can be prevented from falling in the direction and resisting the ground without need, and a grip force can be obtained only in a necessary direction.
[0056]
In addition, four inclined anti-slip protrusions 22b are arranged on one side of the base portion 21 in a direction perpendicular to the line segment connecting the vertices at both ends of the side. This is for providing a stronger anti-slip effect by providing more inclined anti-slip protrusions 22b on one side and arranging a plurality of inclined anti-slip protrusions 22b in parallel.
[0057]
As a means for attaching the stud body 1 to the shoe sole 4, as shown in FIG. 8, a shaft portion 32 having a male screw as the attachment means 31 is inserted into the through hole 23 provided in the base portion 21 of the stud body 1. . In addition, an attached portion 41 having a female screw corresponding to the attachment means 31 is formed integrally with the shoe sole 4 on the shoe sole 4.
[0058]
Further, as shown in FIG. 12, the convex portion 42 of the shoe sole 4 has an outer peripheral shape of the base portion 21 of the stud body 1, that is, a shape obtained by connecting the vertices of the equilateral triangle with the same arc. The shape was offset by 0.5 mm.
This takes into account the case where variations occur in production, such as when the outer peripheral shape of the base portion 21 of the stud body 1 is molded larger than the design or the outer peripheral edge 46 of the recess 42 of the shoe sole 4 is molded smaller than the design. That's it.
[0059]
Similarly, as shown in FIG. 12, the front foot portion of the shoe sole 4 has a concave portion in which one side of the outer peripheral edge 46 of the concave portion 42 corresponds to the substantially toe direction and the other side corresponds to the rear rear side direction. 42 was placed.
[0060]
Specifically, the stud body 1 can be attached in the direction of the toe direction, that is, in the direction of 1 to 22 degrees, the direction against the shear stress of the anti-slip protrusion 22 and the inclined anti-slip protrusion 22b. A recess 42 was disposed.
As shown in FIG. 4, when a right-handed golfer is used, the direction of the shear stress applied around the attached portion 41 provided on the front foot portion of the left foot is relative to the longitudinal direction of the shoe sole 4. This is because the rear side on the outer side is in the positive direction and is in the range of 1 to 22 degrees.
In this case, the other side is a direction corresponding to 121 degrees to 142 degrees, assuming that the outer rear side is the forward direction with respect to the longitudinal direction of the shoe sole 4, which is the case when a right-handed golfer uses it. The direction of the breaking stress applied to the periphery of the attached portion 41 of the right foot.
[0061]
Similarly, as shown in FIG. 12, the recess 42 is disposed in the heel portion of the shoe sole 4 in a direction in which one side of the outer peripheral edge 46 of the recess 42 corresponds to the rear side rearward direction.
[0062]
Specifically, the direction against the shear stress of the anti-slip protrusion 22 and the inclined anti-slip protrusion 22 b is 103 degrees to 133 degrees on the outer side rear side, that is, on the outer side rear side with respect to the longitudinal direction of the shoe sole 4. The recessed part 42 was arrange | positioned so that the stud body 1 could be attached in the direction which faces the direction of.
[0063]
Similarly, as shown in FIG. 12, when the stud body 1 is attached, an engagement mark 45 of “R” is provided at the apex facing the inclined direction 25 of the inclined anti-slip protrusion 22b. In addition, an engagement mark 45 of “L” is provided at the apex corresponding to the position of “S” and the mirror image of the sole 4. The engagement mark 45 was carved into an injection mold used for molding the shoe sole 4 and formed into a convex shape at the same time as the shoe sole 4 was molded.
[0064]
As shown in FIG. 12, on the assumption that the right-handed golfer uses the engagement mark 45 indicated as “R” on the shoe sole 4, the inclined anti-slip protrusion 22 b of the stud body 1 is provided. The stud body 1 was attached so that the apex portion facing the inclined direction 27 matched.
When a left-handed golfer is used, as shown in FIG. 13, the engagement mark 45 displayed as “L” on the shoe sole 4 is opposed to the inclined direction 25 of the inclined anti-slip protrusion 22b. The stud body 1 is preferably attached so that the apex portions to be matched.
[0065]
It should be noted that the heel portion is in a direction corresponding to the shearing stress in the rear direction on the outer side, that is, the sloped anti-slip protrusion on the engagement mark 45 indicated as “RL” on the sole 4 for both the right foot and the left foot. The stud body 1 was attached so that the apex portion facing the inclined direction 27 of 22b matched.
Since the heel portion is subjected to a shear stress in the rear direction on the right instep with both the right foot and the left foot, as shown in FIG. 13, it was similarly attached when used by a left-handed golfer.
[0066]
By attaching the stud body 1 as shown in FIG. 12, the grip force can be exerted without excess or deficiency with respect to the shear stress applied from the shoe sole 4 when the right-handed golfer swings.
Further, by attaching the stud body 1 as shown in FIG. 13, the grip force can be exerted without excess or deficiency with respect to the shear stress applied from the shoe sole when the left-handed golfer swings.
[0067]
(Example 2)
FIG. 15 shows a stud body 1 of a baseball shoe according to the second embodiment of the present invention.
[0068]
In baseball movements, the direction of the shear stress applied to each foot in right-handed and left-handed pitcher movements and in non-throwing movements is the same for all movements except the Ryukyu part. Yes.
In addition, regarding the Ryukyu part, it is known that only the pitcher's shaft foot is subjected to a shearing force in the direction parallel to the longitudinal direction of the shoe, that is, the outer side. In other operations, it is known that a shearing force is applied to the outer rear side.
[0069]
Therefore, the outer peripheral shape of the stud body 1 is a 120-degree symmetrical shape that is an angle formed by the direction corresponding to the shearing force toward the inner shell side of the Ryukyu portion and the direction corresponding to the shearing force toward the rear side of the outer shell side. Each equilateral triangle has a vertex connected by an arc.
[0070]
Further, as shown in FIG. 15, a plate-like metal block 51 is provided as a non-slip protrusion 22 on one side of the stud body 1 and perpendicular to the base 21.
[0071]
As a means for attaching the stud body 1 to the shoe sole 4, a shaft portion 32 having a male screw as the attachment means 31 was inserted into the through hole 23 provided in the base portion 21 of the stud body 1. Further, although not shown in the figure, an attached portion 41 having a female screw corresponding to the attachment means 31 is formed integrally with the shoe sole 4 on the shoe sole 4.
[0072]
Further, as shown in FIG. 16, the shape of the concave portion 42 of the shoe sole 4 is the same shape as the outer peripheral shape of the base portion 21 of the stud body 1.
[0073]
Similarly, as shown in FIG. 16, the non-slip protrusion 22 corresponds to a portion other than the Ryukyu on the shoe sole 4 in a direction opposite to the direction of the shear stress applied to each foot in an operation other than throwing. The concave portion 42 is arranged.
Further, when the stud body 1 is attached to the Ryukyu portion on the shoe sole 4, a shear stress is applied to the outer side in the case of the pitcher's shaft foot, and in the rear side in the other case. In addition, the concave portion 42 is disposed in a direction corresponding to the shear stress of the anti-slip protrusion 22 so that one side is parallel to the longitudinal direction of the shoe and the other side corresponds to the rear side of the outer side.
[0074]
When the right-handed pitcher uses the apex portion of the outer peripheral edge 46 of the concave portion 42 provided in the Ryukyu portion of the shoe sole 4 of the right foot, that is, the anti-slip protrusion 22 is subjected to shear stress toward the inner shell side. When the stud body 1 is attached in the opposing direction, an “R” engagement mark 45 is provided in the vicinity of the apex facing the anti-slip protrusion 22.
Further, when a left-handed pitcher uses it, or when a player other than the pitcher uses, that is, when the stud body 1 is attached in a direction in which the anti-slip protrusion 22 opposes the shear stress toward the rear side of the outer shell, Engagement marks 45 of “O” and “L” are provided in the vicinity of the apex facing the protrusion 22.
[0075]
When the left-handed pitcher uses the apex portion of the outer peripheral edge 46 of the recess 42 provided in the Ryukyu portion of the shoe sole 4 of the left foot, that is, the anti-slip protrusion 22 has a shear stress toward the outer side. When the stud body 1 is attached in a direction opposite to the anti-slip protrusion 22, an “L” engagement mark 45 is provided in the vicinity of the apex facing the anti-slip protrusion 22.
In addition, when the right-handed pitcher uses it, or when it is used by a player other than the pitcher, that is, when the stud body 1 is attached in a direction in which the anti-slip protrusion 22 opposes the shear stress toward the rear side of the outer shell, Engagement marks 45 of “O” and “R” are provided in the vicinity of the apex facing the stop protrusion 22.
The engagement mark 45 was carved into an injection mold used for molding the shoe sole 4 and formed into a convex shape at the same time as the shoe sole 4 was molded.
[0076]
As shown in FIG. 16, assuming that a right-handed pitcher is used, an engagement mark 45 indicated by “R” of a concave portion 42 provided in a Ryukyu portion on the shoe sole 4, The stud body 1 was attached so that the apex portions where the anti-slip protrusions 22 of the stud body 1 face each other matched.
[0077]
As shown in FIG. 17, when a left-handed pitcher uses, the apex at which the anti-slip protrusion 22 of the stud body 1 faces the engagement mark 45 displayed as “L” on the sole 4. It is good to attach the stud body 1 so that a part may correspond.
[0078]
Further, as shown in FIG. 18, when used other than the pitching operation, the apex at which the anti-slip protrusion 22 of the stud body 1 faces the engagement mark 45 displayed as “O” on the shoe sole 4. It is good to attach the stud body 1 so that a part may correspond.
[0079]
By attaching the stud body 1 as shown in FIG. 16, it is possible to exert a grip force with respect to the shearing stress applied from the shoe sole 4 in the pitching operation of a right-handed pitcher.
Further, by attaching the stud body 1 as shown in FIG. 17, it is possible to exert a grip force without excess or deficiency with respect to the shear stress applied from the shoe sole 4 in the pitching operation of the left pitcher.
Further, by attaching the stud body 1 as shown in FIG. 18, the grip force can be exerted without excess or deficiency with respect to the shearing stress applied from the shoe sole 4 in the operation other than the pitching operation of the pitcher.
【The invention's effect】
[0080]
As described above, according to the present invention, it is possible to handle both right-handed users and left-handed users by preparing only one type of shoe sole and stud body. The shoe sole which can be demonstrated can be obtained.
[Brief description of the drawings]
FIG. 1 is an overall perspective view of a stud body 1 according to an embodiment of the present invention.
FIG. 2 is a plan view when the stud body 1 is attached to the shoe sole 4;
FIG. 3 is a plan view of a shoe sole 4 according to an embodiment of the present invention.
FIG. 4 is a graph of foot pressure distribution applied to the ground from the sole, that is, the sole 4 at the time of impact in the swinging motion of a right-handed golfer, in which the direction of action of shear stress is added.
FIG. 5 is an example of the outer peripheral shape of the stud body 1;
FIG. 6 is an example of the outer peripheral shape of the stud body 1;
FIG. 7 is an overall plan view when the stud body 1 according to one embodiment of the present invention is attached to the shoe sole 4;
8 is a cross-sectional view taken along the line II of FIG.
FIG. 9 is a view showing a state in which shear stress is applied in the same direction as the inclination direction of the protrusion side surface 24 of the inclined anti-slip protrusion 22b of the stud body 1;
10 is a view showing a state in which a shear stress is applied from the shoe sole 4 in a direction opposite to the inclination direction of the protrusion side surface 24 of the inclined anti-slip protrusion 22b of the stud body 1. FIG.
FIG. 11 is a perspective view of a stud body 1 and a shoe sole 4 when an extension attachment member is provided as attachment means.
FIG. 12 is a shoe sole of a golf shoe having a stud body attached to the shoe sole according to an embodiment of the present invention.
FIG. 13 is a plan view of a shoe sole 4 when a stud body 1 is attached to a left-handed user in a golf shoe employing a stud body and a shoe sole according to an embodiment of the present invention.
FIG. 14 is an overall perspective view of a stud body according to a second embodiment of the present invention.
FIG. 15 schematically shows the direction of anti-slip used in conventional baseball shoes.
FIG. 16 is a plan view of the sole 4 when the stud body 1 is attached in the baseball shoe adopting the stud body and the sole according to the second embodiment of the present invention, corresponding to the case where a right-handed pitcher is used. FIG.
FIG. 17 is a plan view of a shoe sole 4 when a stud body 1 is attached in a baseball shoe employing a stud body and a shoe sole according to a second embodiment of the present invention, corresponding to the case where a left-handed pitcher is used. It is.
FIG. 18 is a plan view of a shoe sole 4 when the stud body 1 is attached to a baseball shoe employing a stud body and a shoe sole according to a second embodiment of the present invention, corresponding to a case where the stud body 1 is used other than a throwing operation. It is.
[Explanation of symbols]
1: Stud body
21: Base part
22: Anti-slip protrusion
22b: Inclined anti-slip protrusion
23: Through hole
24: Projection side surface
25: Extension surface of the base portion 21
26: Elevation angle
27: Inclination direction
28: Center of outer shape
29: Small protrusion
3: Mounting part
31: Mounting means
32: Shaft
33: Extension mounting member
4, 4a, 4b: Sole
41: Mounted part
42: recess
43: Extension mounting engagement part
44: Space
45: engagement mark
46: outer periphery
51: Metal block

Claims (10)

A non-slip stud body and a sole that are detachably attached to a shoe sole of a sports shoe, wherein the stud body has a base portion on the shoe sole side and a non-slip protrusion on the grounding surface side of the base portion. The outer peripheral shape of the base portion is a rotationally symmetric shape, and the shoe sole has a mounting portion for detaching the stud body, and the stud body has the mounting portion around the mounting portion. A sports shoe stud body and a shoe sole having a recess that engages with an outer peripheral shape of a base portion. In claim 1,
The anti-slip protrusion has at least one inclined anti-slip protrusion having a shape in which the elevation angle of at least one protrusion side surface is inclined at an acute angle with respect to the extended surface of the base portion. Features sport shoes stud body and sole. In claim 2,
A sports shoe stud body and a shoe sole, wherein two or more inclined anti-slip protrusions having the same inclination direction are provided on one side of an outer periphery of the base portion. In any of claims 2 to 3,
A stud body and a sole of a sports shoe, wherein all the inclined anti-slip protrusions have the same inclination direction. In any of claims 2 to 4,
The outer peripheral shape of the base portion is a regular polygon, and two or more inclined anti-slip protrusions are provided on one side of the outer periphery so as to be inclined in a direction perpendicular to the one side. Sports shoe stud body and sole. In any of claims 2 to 4,
The outer peripheral shape of the base portion is a shape in which the vertices of a regular polygon are connected by the same arc, and two or more inclined anti-slip protrusions connect the vertices at both ends of the one side on one side of the outer periphery. A sports shoe stud body and a shoe sole, wherein the stud body and the shoe sole are provided so as to be inclined in a direction perpendicular to the line segment. The stud body and the sole of a sports shoe according to any one of claims 2 to 6, wherein all of the anti-slip protrusions are the inclined anti-slip protrusions. In any one of Claims 1 thru | or 7,
A stud body and a shoe sole of a sports shoe, wherein a character or / and figure engagement mark is provided at a vertex of an outer peripheral edge of the recess provided on the shoe sole. In any of claims 2 to 8,
The outer peripheral shape of the base portion is a shape obtained by connecting the apexes of an equilateral triangle with the same arc, and two or more inclined anti-slip protrusions are provided on one side of the outer periphery of the base portion, One or more inclined anti-slip protrusions are provided on a base portion other than one side, and all the inclined anti-slip protrusions are in a direction perpendicular to a line segment connecting the vertices at both ends of the one side. A stud body and a sole of a sports shoe, wherein the stud body is provided with an inclination. In any of claims 2 to 9,
The outer peripheral shape of the base portion is a shape obtained by connecting the vertices of an equilateral triangle with the same arc, and all the anti-slip protrusions are the inclined anti-slip protrusions on one side of the outer periphery of the base portion. Two or more inclined anti-slip protrusions are provided, one or more inclined anti-slip protrusions are provided on the base portion other than the one side, and all the inclined anti-slip protrusions are A sports shoe stud body and a shoe sole, wherein the stud body and the shoe sole are inclined in a direction perpendicular to a line segment connecting vertices at both ends of one side.

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