EP0363217A2 - Athletic shoe with bendable traction projections - Google Patents

Athletic shoe with bendable traction projections Download PDF

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Publication number
EP0363217A2
EP0363217A2 EP89310255A EP89310255A EP0363217A2 EP 0363217 A2 EP0363217 A2 EP 0363217A2 EP 89310255 A EP89310255 A EP 89310255A EP 89310255 A EP89310255 A EP 89310255A EP 0363217 A2 EP0363217 A2 EP 0363217A2
Authority
EP
European Patent Office
Prior art keywords
sole
projections
traction
grooves
accordance
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP89310255A
Other languages
German (de)
French (fr)
Other versions
EP0363217A3 (en
Inventor
Thomas A. Mcmahon
Gordon A. Valiant
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nike International Ltd
Original Assignee
Nike International Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Nike International Ltd filed Critical Nike International Ltd
Publication of EP0363217A2 publication Critical patent/EP0363217A2/en
Publication of EP0363217A3 publication Critical patent/EP0363217A3/en
Withdrawn legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B13/00Soles; Sole-and-heel integral units
    • A43B13/14Soles; Sole-and-heel integral units characterised by the constructive form
    • A43B13/22Soles made slip-preventing or wear-resisting, e.g. by impregnation or spreading a wear-resisting layer
    • A43B13/24Soles made slip-preventing or wear-resisting, e.g. by impregnation or spreading a wear-resisting layer by use of insertions
    • A43B13/26Soles made slip-preventing or wear-resisting, e.g. by impregnation or spreading a wear-resisting layer by use of insertions projecting beyond the sole surface
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B3/00Footwear characterised by the shape or the use
    • A43B3/0036Footwear characterised by the shape or the use characterised by a special shape or design
    • A43B3/0042Footwear characterised by the shape or the use characterised by a special shape or design with circular or circle shaped parts

Definitions

  • the present invention relates to an athletic shoe and particu­larly to an athletic shoe adapted to resist sliding of the shoe relative to the ground in any linear translation of the shoe but which will per­mit, in particular, pivoting about a pivot point in the ball thereof.
  • U.S. Patent No. 4,670,996 to Beekman discloses a shoe having a sole for initially facilitating rotation about an axis of rotation normal in the sole in response to the application of a moment about the axis of rotation.
  • the sole contains flexible members radially spaced from the axis of rotation and guide means for impeding the flexing of the flexible members in response to forces which do not create moments about the axis of rotation so as to improve traction in the direction longitudinally of the shoe.
  • the guide means allows flexing of the flex­ible members in response to forces which do create moments about the axis of rotation. This initially facilities rotational motion of the foot relative to the ground.
  • the shoe and foot only rotate easily until the flexible members are bent so that their lowermost surfaces are flush with the lowermost surfaces of the guide means.
  • the lowermost surfaces of the guide means have high frictional con­tact with the ground and will tend to impede further rotation of the shoe and foot.
  • Only a limited range of rotational motion is pro­vided, subjecting the wearer's foot to potentially injurious forces.
  • an athletic shoe having traction projections embedded in the bottom of grooves in the outsole, the grooves being arranged concentrically about a pivot point in the ball portion and most of the grooves therefore extending laterally of the outsole.
  • the traction projections protrude slightly from the ground engaging surface of the shoe into contact with the ground.
  • Ground designates the playing surface on which the shoe is used, whether it be, for example, natural or artifi­cial turf or the wood surface of a basketball court or a composition surface on a track or tennis court.
  • the traction projections are adapted to bend when force is exerted against their free ends.
  • the traction projections bend about the point at which they are embedded in the outsole only until the pro­truding portions at the free ends engage the front edges of the groove.
  • the traction projections are then supported by the edges of the grooves to place the relatively rigid free ends in engagement with the ground.
  • the shoe moves relative to the ground in a direction generally parallel to most of the grooves.
  • the traction projections thus bend generally in the direction of the grooves and tend to lay down in the grooves and offer little or no resistance to movement of the shoe relative to the ground.
  • the outsole or race plate includes an outsole member from which the traction projections extend, and rings which have a ground engaging surface formed of a material such as nylon or other hard plastic which will provide a low friction contact between the shoe and the ground when the traction projections are forced into the grooves. This pre­vents the shoe from locking the foot against rotation and possibly subjecting it to an injurious force.
  • the shoe in accordance with this invention may be adapted for use, for example, on a basketball court and the traction projections can be formed as columns of high-friction material such as rubber.
  • the shoe may also be adapted for use on artificial turf wherein the protruding free ends of the traction projections tend to penetrate the surface and to provide traction.
  • the traction projections can be formed as bundles of bristles or columns of high-friction material when the shoe is to be used on artificial turf.
  • FIG. 1 an athletic shoe designated gen­erally as 50.
  • a race plate or outsole 1 is attached to upper 20 of ath­letic shoe 50.
  • Outsole 1 includes outsole member 1a which is provided with a plurality of traction projections 19. Traction projections 19 are arranged in concentric circles.
  • Outsole 1 further includes rings 26 of a low friction material such as nylon or teflon which are secured between adjacent circles of traction projections 19 to the bottom surface of outsole member 1a. Materials with a kinetic coefficient of friction of 0.2 to 0.4 with respect to the type ground surface on which the shoe is to be used would be suitable.
  • the bottom surfaces of rings 26 represent the ground engaging surface of the shoe.
  • rings and “circles” as used herein broadly refers to either (1) complete rings and circles or (2) segments thereof where the ring or circle diameter is greater than the width of outsole 1.
  • a disk 26a of low friction material is disposed within the region inside the inner­most ring of traction projections 19.
  • disk 26a and rings 26 are arranged concentrically about a pivot point 3 in the ball portion so as to define a plurality of concentric grooves 2 within which traction projections 19 are disposed.
  • Grooves 2 include con­centric circular grooves 4 and 5 and segments of grooves 6-14 which have a diameter greater than the width of outsole 1 and therefore define incomplete or broken circles.
  • groove segments 15, 16, and 17, similarly defined by rings 26 and traction projections 19 may be provided in the heel portion of outsole 1. It should be empha­sized that the rings should have relatively low friction on the surface for which the athletic shoe is designed for use.
  • Traction projections 19 are distributed uniformly at a relatively close spacing along each groove 2.
  • traction projections 19 are formed as columns or cleats 19′ of rubber or other high friction material. As suggested by the dashed curve in Figure 4, the columns may be formed with rounded ends.
  • Columns 19′ are preferably molded into outsole member 1a although the invention is not limited by the manner in which columns 19′ are secured to outsole member 1a.
  • Columns 19′ extend perpendicular to the plane of the ground engaging surface of outsole 1, parallel to and normally spaced from the opposed parallel side walls 30, 32 of the grooves 2 as shown in Figures 3 and 4. The length of columns 19′ is such that the free ends thereof protrude slightly from the ground engaging surface of outsole 1.
  • columns 19′ are relatively stiff, they are also adapted to bend from the ends embedded in outsole 1 under forces exerted at their free ends.
  • the normal posture of columns 19′ is as shown in Figures 4 and 5, that is, extending perpendicular to the ground engag­ing surface of outsole 1 and spaced from side walls 30, 32 of grooves 2.
  • grooves 6-14 are gen­erally transverse to the center line of the shoe, which is the line extending from the toe portion, through the ball portion to the heel portion.
  • Grooves 4 and5 include substantial portions that are trans­verse to the center line.
  • Grooves 15, 16 and 17 in the heel portion of the outsole 1 also extend generally transversely of the center line of the shoe.
  • Grooves 4 and 5, and to a lesser extent grooves 6-14, also provide traction in a medio-lateral direction radially of pivot point 3 as for instance when a player changes direction.
  • all of the columns in the grooves 4-16 are moved in a direction longitudinally of their respec­tive grooves and, as shown in Figure 7, are bent into the grooves and offer little or no resistance to the movement.
  • low friction rings 26 are in contact with the ground and pivoting is facilitated such that the player's foot will not be locked in place. This reduces the potential for serious injury.
  • Shoes with traction projections made of rubber or other high friction materials could be used on wood floors, as, for example, a basketball court, as well as on artificial playing surfaces which simu­late grass.
  • a shoe constructed in accordance with the present invention should meet several requirements.
  • the translational fric­tion force of a shoe including the traction projections should be at least two times the translational friction force of the same shoe with­out the traction projections, i.e. with only the low friction rings.
  • the translational coefficient of friction provided by the cleats should be greater than 1.0, noting that translational friction varies with load (i.e., weight of person wearing the shoe) and velocity, and that the specified translational coefficient of friction is for an aver­age adult moving at average walking to running speeds.
  • the resistance of the shoe to a tangential force should not be substan­tially affected by the traction projections.
  • One manner of determin­ing this resistance is to apply a tangential force to a shoe subjected to a load slightly greater than the average body weight.
  • the peak fric­tional moment during rotation of the shoe is measured.
  • the peak moment is indicative of the resistance of the shoe to pivoting motion.
  • the peak moment of a shoe including the traction projections should not be substantially greater than the peak moment of the same shoe without the traction projections.
  • the dimensions and characteristics of the traction projections play an important role in both translational and rotational friction.
  • the traction projections must be a sufficient overall length to facili­tate bending during pivoting motion and also must project from the ground engaging surface to generate sufficient translational friction. Increasing the diameter of traction projections increases translational friction, but inhibits bending. The overall length, projecting length and diameter of the traction projections thus, must be coordinated to obtain the desired frictional objections.
  • notches 43 may be provided in the traction projections as an alterna­tive for facilitating bending.
  • each notch is provided in each trac­tion projection, each notch extending in a direction substantially per­pendicular to the tangent of the groove at that point, so as to facili­tate flexing in both pivoting directions while bending toward the side-­walls of the groove is still inhibited.
  • traction projections 19 may be formed either as column 19 or as bundles of bristles 18 as shown in Figure 8 which are made from relatively stiff cylindrical elements formed for example of nylon or polypropylene.
  • Bristles 18 comprise bundles of filaments that are drawn into U-shaped circular holes formed in the bottom of the grooves ⁇ the holes being for example about 3 mm in diameter (slightly less than the width of the grooves) and about 2 mm deep, and spaced apart about 4 mm center to center.
  • the bundles of filaments are drawn into the holes and held therein by wire 24, of, for example, stainless steel that is, threaded upwardly and then downwardly through a pilot hole formed through the sole in the center of the filament retaining hole to form a loop that encircles the mid-point of the bundles of fila­ments.
  • the ends of wire 24 are secured in the soles, for example, by looping them through a pair of pilot holes and tying them off.
  • the ground engaging surface of the sole may include a clearance groove interconnecting the pilot holes in which the lead of the wire between the holes is seated.
  • the number and size of the bristles in the bundle can vary but typically may comprise for example, twenty- five strands of nylon approximately 0.3 mm in diameter, thus producing a tuft of fifty strands, the bristles extending from the sole a distance of about 3 or 4 mm or so.
  • the outsole or race plate is molded of a material such as nylon or other hard plastic which has a relatively low frictional resistance on artificial turf.

Landscapes

  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)

Abstract

There is disclosed an athletic shoe having grooves in a ground engaging surface of a sole formed concentrically about a pivot point in the ball portion and having traction projections in the form of bris­tles or columns embedded in the bottom of the grooves. Free ends of the traction projections protrude from the ground engaging surface whereby forces on the free ends of the traction projections perpen­dicular to the grooves, as when a player is accelerating, causes the projections to bend against the side walls of the grooves which thus support the projections against further bending with the free ends of the projections protruding from the outsole to provide traction. Forces on the free ends of the projections tangentially to the grooves, as when a player pivots, cause the projections to bend into or lay down in the grooves and thus offer little or no traction. The ground engaging surface of the sole is formed of a material having a low coefficient of friction so that the sole can move or pivot relatively freely once the projections have bent into the grooves.

Description

    TECHNICAL FIELD
  • The present invention relates to an athletic shoe and particu­larly to an athletic shoe adapted to resist sliding of the shoe relative to the ground in any linear translation of the shoe but which will per­mit, in particular, pivoting about a pivot point in the ball thereof.
  • BACKGROUND OF THE INVENTION
  • Numerous arrangements have been proposed for providing improved traction in athletic shoes in the direction longitudinally fo the shoe to assist during acceleration, such as conventional cleats or spikes. These, however, also resist pivoting about the ball portion of the shoe as well as sliding movement laterally of the shoe.
  • Other arrangements that have been suggested, such as dis­closed in U.S. patent No. 3,555,697 and German patent No. 30 09 381, include bristles embedded in the soles of the shoes and inclined gener­ally in one direction so that the bristles tend to dig into the ground as force is applied to the shoe -- that is, the bristles are inclined toward the rear of the sole to resist rearward movement of the shoe relative to the ground and thus to improve traction for forward movement. The amount of grip between the sole and the ground in such an arrangement depends on the number of bristles provided, as well as on the relative stiffness and length of the bristles. The stiffness of the bristles, however, affects their resistance to sliding relative to the ground in all directions. The length of the bristles affects not only their penetration into the ground but also their bending characteris­tics which, in turn, affects the useful life of the shoe.
  • U.S. Patent No. 4,670,996 to Beekman discloses a shoe having a sole for initially facilitating rotation about an axis of rotation normal in the sole in response to the application of a moment about the axis of rotation. The sole contains flexible members radially spaced from the axis of rotation and guide means for impeding the flexing of the flexible members in response to forces which do not create moments about the axis of rotation so as to improve traction in the direction longitudinally of the shoe. The guide means allows flexing of the flex­ible members in response to forces which do create moments about the axis of rotation. This initially facilities rotational motion of the foot relative to the ground. However, the shoe and foot only rotate easily until the flexible members are bent so that their lowermost surfaces are flush with the lowermost surfaces of the guide means. The lowermost surfaces of the guide means have high frictional con­tact with the ground and will tend to impede further rotation of the shoe and foot. Thus, only a limited range of rotational motion is pro­vided, subjecting the wearer's foot to potentially injurious forces.
  • Other approaches to improve traction in shoes have included embedding elements in grooves in the soles such as the use of rope-­like elements disclosed in U.S. Patent No. 1,664,728 which are designed to support the side walls of relatively deep grooves in the sole and thus to maintain the edges of the grooves in a gripping relation with the ground. Another approach of this nature as disclosed in U.S. Patent No. 1,829,941 comprises a blade seated in a groove in the heel that protrudes from the surface of the heel to provide traction, for example, on ice. Devices of this nature are not suitable for use on surfaces such as artificial turf.
  • SUMMARY OF THE INVENTION
  • In accordance with this invention, there is provided an athletic shoe having traction projections embedded in the bottom of grooves in the outsole, the grooves being arranged concentrically about a pivot point in the ball portion and most of the grooves therefore extending laterally of the outsole. The traction projections protrude slightly from the ground engaging surface of the shoe into contact with the ground. Ground as used herein designates the playing surface on which the shoe is used, whether it be, for example, natural or artifi­cial turf or the wood surface of a basketball court or a composition surface on a track or tennis court.
  • The traction projections are adapted to bend when force is exerted against their free ends. When force is exerted rearwardly endwise of the shoe as in acceleration, which is the direction trans­verse to most of the grooves, the traction projections bend about the point at which they are embedded in the outsole only until the pro­truding portions at the free ends engage the front edges of the groove. The traction projections are then supported by the edges of the grooves to place the relatively rigid free ends in engagement with the ground. At the same time, when force is exerted tangential to the grooves of the shoe as in sliding or pivoting about the ball, the shoe moves relative to the ground in a direction generally parallel to most of the grooves. The traction projections thus bend generally in the direction of the grooves and tend to lay down in the grooves and offer little or no resistance to movement of the shoe relative to the ground. The outsole or race plate includes an outsole member from which the traction projections extend, and rings which have a ground engaging surface formed of a material such as nylon or other hard plastic which will provide a low friction contact between the shoe and the ground when the traction projections are forced into the grooves. This pre­vents the shoe from locking the foot against rotation and possibly subjecting it to an injurious force.
  • The shoe in accordance with this invention may be adapted for use, for example, on a basketball court and the traction projections can be formed as columns of high-friction material such as rubber. The shoe may also be adapted for use on artificial turf wherein the protruding free ends of the traction projections tend to penetrate the surface and to provide traction. The traction projections can be formed as bundles of bristles or columns of high-friction material when the shoe is to be used on artificial turf.
  • A more complete appreciation of the invention and many of the attendant advantages thereof will be readily obtained as the invention becomes better understood by reference to the following detailed description when considered in connection with the accom­panying drawings.
  • BRIEF DESCRIPTION OF THE DRAWINGS
    • Figure 1 is a side elevational view of an athletic shoe in accor­dance with the present invention.
    • Figure 2 is a plan view of the bottom of the athletic shoe of Figure 1.
    • Figure 3 is an enlarged view of the bottom of the athletic shoe of Figure 1 depicting a groove and the embedded traction projections.
    • Figure 4 is a sectional view along line 4-4 of Figure 3.
    • Figure 5 is a fragmentary sectional view along line 5-5 of Figure 2.
    • Figure 6 is a fragmentary sectional view similar to Figure 5 showing the bristles in the outsole stressed in the direction perpendic­ular of the grooves.
    • Figure 7 is a fragmentary sectional view longitudinally of a groove in the outsole of the athletic shoe shown in Figure 1 showing the traction projections stressed in the direction tangential to the grooves.
    • Figure 8 is a fragmentary sectional view similar to Figure 4 illustrating a further embodiment of the present invention.
    • Figure 9 is a view similar to Figure 3, partially in section, illus­trating cut-out sections in the traction projections.
    DETAILED DESCRIPTION
  • Referring to the drawings wherein like numerals indicate like elements, there is shown in Figure 1 an athletic shoe designated gen­erally as 50. A race plate or outsole 1 is attached to upper 20 of ath­letic shoe 50. Outsole 1 includes outsole member 1a which is provided with a plurality of traction projections 19. Traction projections 19 are arranged in concentric circles. Outsole 1 further includes rings 26 of a low friction material such as nylon or teflon which are secured between adjacent circles of traction projections 19 to the bottom surface of outsole member 1a. Materials with a kinetic coefficient of friction of 0.2 to 0.4 with respect to the type ground surface on which the shoe is to be used would be suitable. The bottom surfaces of rings 26 represent the ground engaging surface of the shoe. It should be noted that "rings" and "circles" as used herein broadly refers to either (1) complete rings and circles or (2) segments thereof where the ring or circle diameter is greater than the width of outsole 1. A disk 26a of low friction material is disposed within the region inside the inner­most ring of traction projections 19. As shown in Figure 2, disk 26a and rings 26 are arranged concentrically about a pivot point 3 in the ball portion so as to define a plurality of concentric grooves 2 within which traction projections 19 are disposed. Grooves 2 include con­centric circular grooves 4 and 5 and segments of grooves 6-14 which have a diameter greater than the width of outsole 1 and therefore define incomplete or broken circles. Additionally groove segments 15, 16, and 17, similarly defined by rings 26 and traction projections 19 may be provided in the heel portion of outsole 1. It should be empha­sized that the rings should have relatively low friction on the surface for which the athletic shoe is designed for use.
  • Traction projections 19 are distributed uniformly at a relatively close spacing along each groove 2. In the illustrated embodiment, traction projections 19 are formed as columns or cleats 19′ of rubber or other high friction material. As suggested by the dashed curve in Figure 4, the columns may be formed with rounded ends. Columns 19′ are preferably molded into outsole member 1a although the invention is not limited by the manner in which columns 19′ are secured to outsole member 1a. Columns 19′ extend perpendicular to the plane of the ground engaging surface of outsole 1, parallel to and normally spaced from the opposed parallel side walls 30, 32 of the grooves 2 as shown in Figures 3 and 4. The length of columns 19′ is such that the free ends thereof protrude slightly from the ground engaging surface of outsole 1.
  • While columns 19′ are relatively stiff, they are also adapted to bend from the ends embedded in outsole 1 under forces exerted at their free ends. The normal posture of columns 19′ is as shown in Figures 4 and 5, that is, extending perpendicular to the ground engag­ing surface of outsole 1 and spaced from side walls 30, 32 of grooves 2.
  • As shown in Figure 6, when stress is applied to the free ends of columns 19′ in a direction perpendicular to grooves 2 -- for example when outsole 1 is moved in the direction of arrow A in Figure 6, the free ends of columns 19′ which are in contact with the ground are stressed in the direction of the arrow B, and bend in the direction of the arrow B until they engage one of the side walls of the grooves 2, and are supported by the side wall. Columns 19′ are thus maintained generally upright with their free ends protruding and in engagement with the ground to provide traction.
  • As shown in Figure 7, when stress is applied to the free ends of columns 19′ in a direction tangential to the grooves, their free ends bend into grooves 2 and will continue to bend until they are disposed entirely in the grooves. Thus, the free ends of columns 19′ offer little or no resistance to the movement of outsole 1 relative to the ground. Since rings 26 are formed of low friction material, the shoe is adapted to slide relatively freely with respect to the ground when such tan­gential stress is applied.
  • Since the grooves are disposed concentric about pivot point 3 in the ball portion of the outsole 1, most of the grooves 6-14 are gen­erally transverse to the center line of the shoe, which is the line extending from the toe portion, through the ball portion to the heel portion. Grooves 4 and5 include substantial portions that are trans­verse to the center line. Grooves 15, 16 and 17 in the heel portion of the outsole 1 also extend generally transversely of the center line of the shoe.
  • Accordingly, when a player exerts a shearing force on the shoe as in accelerating and the force is exerted longitudinally of outsole 1, most of columns 19′ in grooves 6-14, as well as most columns in grooves 13, 16 and 17, and a substantial number of those in the circu­lar grooves 4 and 5, all bend into engagement with the adjacent walls of the grooves 2 as shown in Figure 6 and are then supported by the walls of the grooves. Further bending of columns 19′ is thus pre­vented and the free ends of the columns protrude from the ground engaging surface of the outsole 1 to provide traction. Grooves 4 and 5, and to a lesser extent grooves 6-14, also provide traction in a medio-lateral direction radially of pivot point 3 as for instance when a player changes direction. However, when a player pivots on the ball portion of the shoe about pivot point 3, all of the columns in the grooves 4-16 are moved in a direction longitudinally of their respec­tive grooves and, as shown in Figure 7, are bent into the grooves and offer little or no resistance to the movement. Thus, during this pivot­ing action, low friction rings 26 are in contact with the ground and pivoting is facilitated such that the player's foot will not be locked in place. This reduces the potential for serious injury.
  • Shoes with traction projections made of rubber or other high friction materials could be used on wood floors, as, for example, a basketball court, as well as on artificial playing surfaces which simu­late grass.
  • In practice, a shoe constructed in accordance with the present invention should meet several requirements. The translational fric­tion force of a shoe including the traction projections should be at least two times the translational friction force of the same shoe with­out the traction projections, i.e. with only the low friction rings. Also, the translational coefficient of friction provided by the cleats should be greater than 1.0, noting that translational friction varies with load (i.e., weight of person wearing the shoe) and velocity, and that the specified translational coefficient of friction is for an aver­age adult moving at average walking to running speeds. In addition, the resistance of the shoe to a tangential force should not be substan­tially affected by the traction projections. One manner of determin­ing this resistance is to apply a tangential force to a shoe subjected to a load slightly greater than the average body weight. The peak fric­tional moment during rotation of the shoe is measured. The peak moment is indicative of the resistance of the shoe to pivoting motion. The peak moment of a shoe including the traction projections should not be substantially greater than the peak moment of the same shoe without the traction projections.
  • The dimensions and characteristics of the traction projections play an important role in both translational and rotational friction. The traction projections must be a sufficient overall length to facili­tate bending during pivoting motion and also must project from the ground engaging surface to generate sufficient translational friction. Increasing the diameter of traction projections increases translational friction, but inhibits bending. The overall length, projecting length and diameter of the traction projections thus, must be coordinated to obtain the desired frictional objections. As shown in Figures 4 and 9, notches 43 may be provided in the traction projections as an alterna­tive for facilitating bending. Two notches are provided in each trac­tion projection, each notch extending in a direction substantially per­pendicular to the tangent of the groove at that point, so as to facili­tate flexing in both pivoting directions while bending toward the side-­walls of the groove is still inhibited.
  • When the shoe is adapted for use on artificial turf, traction projections 19 may be formed either as column 19 or as bundles of bristles 18 as shown in Figure 8 which are made from relatively stiff cylindrical elements formed for example of nylon or polypropylene. Bristles 18 comprise bundles of filaments that are drawn into U-shaped circular holes formed in the bottom of the grooves ― the holes being for example about 3 mm in diameter (slightly less than the width of the grooves) and about 2 mm deep, and spaced apart about 4 mm center to center. The bundles of filaments are drawn into the holes and held therein by wire 24, of, for example, stainless steel that is, threaded upwardly and then downwardly through a pilot hole formed through the sole in the center of the filament retaining hole to form a loop that encircles the mid-point of the bundles of fila­ments. The ends of wire 24 are secured in the soles, for example, by looping them through a pair of pilot holes and tying them off. The ground engaging surface of the sole may include a clearance groove interconnecting the pilot holes in which the lead of the wire between the holes is seated. The number and size of the bristles in the bundle can vary but typically may comprise for example, twenty- five strands of nylon approximately 0.3 mm in diameter, thus producing a tuft of fifty strands, the bristles extending from the sole a distance of about 3 or 4 mm or so. In this embodiment the outsole or race plate is molded of a material such as nylon or other hard plastic which has a relatively low frictional resistance on artificial turf.
  • It is to be understood that the invention is not limited to the illustrations described and shown herein, which are deemed to be merely illustrative of modes of carrying out the invention, and which are susceptible of modification of form size, arrangement of parts and details of operation. The invention rather is intended to encompass all such modifications which are within its spirit and scope.

Claims (22)

1. A sole for an athletic shoe comprising an outsole having a ground engaging surface of a material possessing a low coefficient of friction with respect to the ground upon which the sole is adapted for use and grooves disposed inwardly from the ground engaging sur­face, a plurality of elongate projections extending from the bottom of said grooves and between the side walls of said grooves toward said ground engaging surface, said elongate projections having free ends extending beyond the ground engaging surface of said outsole and being bendable by forces applied against said free ends, said elongate projections engaging and being supported by said side walls upon bend­ing in a direction perpendicular to said grooves whereby said free ends protrude from said ground engaging surface to provide traction rela­tive to the ground and bending substantially into said grooves upon bending in a direction tangential to said grooves to reduce traction relative to the ground.
2. A sole in accordance with claim 1 in which said grooves include grooves arranged concentrically about a point located in the ball portion of said outsole.
3. A sole in accordance with claim 2 in which said grooves include circular grooves in the ball portion of said outsole.
4. A sole in accordance with claim 3 in which said grooves include spaced concentric groove segments outwardly of said circular grooves.
5. A sole in accordance with claim 4 in which at least some of said spaced concentric groove segments are located in the heel portion of said outsole.
6. A sole in accordance with claim 1 in which said elongate projections are relatively stiff bristles.
7. A sole in accordance with claim 1 in which said elongate projections are formed as columns of high friction material.
8. A sole in accordance with claim 1 in which said outsole comprises an outsole member to which said plurality of elongate pro­jections are secured, said plurality of elongate projections including elongate projections arranged concentrically about a point located in the ball portion of said outsole member and a plurality of rings secured to said outsole member formed of a material having a low coefficent of friction with respect to the ground upon which the sole is adapted for use, said rings being arranged in a spaced concentric relationship so that the spaced sides of adjacent rings define at least in part the side walls of said grooves within which said concentrically arranged elongated projections are disposed.
9. A sole in accordance with claim 7 in which said outsole member is formed integral with said columns.
10. A sole in accordance with claim 5 in which said bristles are formed separate from said outsole and are secured within said grooves.
11. An athletic shoe comprising an upper and a sole attached to said upper, said sole including a major ground engaging surface formed of a material having a low coefficent of friction with respect to the ground upon which the sole is adapted for use, and a plurality of discrete traction projections extending outward from said sole, said traction projections being movable between a first position extending outward of said ground engaging surface to provide traction against the ground when said shoe is moved in a generally forward, lateral, medial or rearward direction and a second position inward of said ground engaging surface and substantially out of contact with the ground to minimize traction when said shoe is moved in a generally pivoting direction, and means for supporting said traction projections in the first position during the shoe motion in the forward, lateral, medial and rearward direction and permitting said traction projec­tions to move to the second position during the pivoting motion of the shoe.
12. An athletic shoe in accordance with claim 11 in which said sole includes at least one groove having a bottom and a pair of opposing side walls, and said traction projections are elongate and are located in said at least one groove.
13. An athletic shoe in accordance with claim 12 in which said traction projections are formed of a bendable material and have a length greater than the depth of said at least one groove to have free ends normally extending outward of said ground engaging surface, said opposing side walls of said groove being located with respect to trac­tion projections to support said projections with said free ends out­ward of said ground engaging surface during the forward and rearward motion of the shoe and to allow said projections to bend into said groove with the free end substantially inward of said ground engaging surface during the pivoting motion of the shoe.
14. A sole for an athletic shoe comprising:
an outsole member having a plurality of traction projec­tions extending outwardly therefrom, said plurality of traction projec­tions including traction projections arranged concentrically about a pivot point located in the ball portion of said outsole member; and
a plurality of concentric rings formed of a material hav­ing a low coefficient of friction with respect to the ground upon which said sole is adapted for use and secured to said outsole member to define a ground engaging surface, said concentric rings being ori­ented relative to said concentric traction projections such that said concentric traction projections are movable between a first position extending outward of said ground engaging surface to provide traction against the ground when said sole is moved in generally linear transla­tional motion and a second position inward of said ground engaging surface and substantially out of contact with the ground to minimize traction when said sole is moved about in generally pivoting motion.
15. A sole in accordance with claim 14 in which said trac­tion projections include notch means for facilitating movement of said traction projections to the second position inward of said ground engaging surface.
16. A sole in accordance with claim 14 in which said trac­tion projections are relatively stiff bristles.
17. A sole in accordance with claim 14 in which said trac­tion projections are formed as columns of high friction material.
18. A sole in accordance with claim 17 in which said col­umns include rounded end portions.
19. A sole in accordance with claim 14 in which said outsole member is formed integrally with said traction projections.
20. A sole in accordance with claim 14 in which the transla­tion coefficient of friction provided by the traction projections is at least 1.0.
21. A sole in accordance with claim 14 in which the transla­tional friction force of the shoe with the traction projections is at least twice the translational friction force of the shoe with only the rings.
22. A sole in accordance with claim 14 in which in the trac­tion projections do not substantially increase the resistance to pivot­ing motion over the resistance provided by the ground engaging sur­face of said rings.
EP19890310255 1988-10-07 1989-10-06 Athletic shoe with bendable traction projections Withdrawn EP0363217A3 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US25483988A 1988-10-07 1988-10-07
US254839 1994-06-06

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EP0363217A2 true EP0363217A2 (en) 1990-04-11
EP0363217A3 EP0363217A3 (en) 1991-07-03

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1997013422A1 (en) * 1995-10-11 1997-04-17 Rotasole Pty. Ltd. Shoe with circular pad in the sole to relieve twisting stresses on the ankle
EP0853896A3 (en) * 1997-01-17 1999-02-10 Nike International Ltd Footwear with mountain goat traction elements
GB2332136A (en) * 1997-12-11 1999-06-16 Softspikes Inc Cleat
WO2016081210A1 (en) * 2014-11-18 2016-05-26 Nike Innovate C.V. Outsole with grip reduction extension members

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US6834445B2 (en) 2002-07-16 2004-12-28 Softspikes, Llc Shoe cleat with improved traction
US6834446B2 (en) 2002-08-27 2004-12-28 Softspikes, Llc Indexable shoe cleat with improved traction

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US4670997A (en) * 1984-03-23 1987-06-09 Stanley Beekman Athletic shoe sole
US4689901A (en) * 1984-10-19 1987-09-01 Frederick Ihlenburg Reduced torsion resistance athletic shoe sole

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US4670997A (en) * 1984-03-23 1987-06-09 Stanley Beekman Athletic shoe sole
US4689901A (en) * 1984-10-19 1987-09-01 Frederick Ihlenburg Reduced torsion resistance athletic shoe sole

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1997013422A1 (en) * 1995-10-11 1997-04-17 Rotasole Pty. Ltd. Shoe with circular pad in the sole to relieve twisting stresses on the ankle
US6035559A (en) * 1995-10-11 2000-03-14 Rotasole Pty. Ltd. Shoe with circular pad in the sole to relieve twisting stresses on the ankle
US5926974A (en) * 1997-01-17 1999-07-27 Nike, Inc. Footwear with mountain goat traction elements
US6018889A (en) * 1997-01-17 2000-02-01 Nike, Inc. Footwear with mountain goat traction elements
EP0853896A3 (en) * 1997-01-17 1999-02-10 Nike International Ltd Footwear with mountain goat traction elements
US6226896B1 (en) 1997-01-17 2001-05-08 Nike, Inc. Footwear with mountain goat traction elements
GB2332136A (en) * 1997-12-11 1999-06-16 Softspikes Inc Cleat
US6023860A (en) * 1997-12-11 2000-02-15 Softspikes, Inc. Athletic shoe cleat
US6167641B1 (en) 1997-12-11 2001-01-02 Softspikes, Inc. Athletic shoe cleat
US6305104B1 (en) 1997-12-11 2001-10-23 Mcmullin Faris W. Athletic shoe cleat
GB2332136B (en) * 1997-12-11 2002-07-17 Softspikes Inc Athletic shoe cleat
WO2016081210A1 (en) * 2014-11-18 2016-05-26 Nike Innovate C.V. Outsole with grip reduction extension members
US10165827B2 (en) 2014-11-18 2019-01-01 Nike, Inc. Outsole with grip reduction extension members

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