EP3504999B1 - Schuhwerk mit schnürsenkelaufnahmesträngen - Google Patents

Schuhwerk mit schnürsenkelaufnahmesträngen Download PDF

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Publication number
EP3504999B1
EP3504999B1 EP19153007.0A EP19153007A EP3504999B1 EP 3504999 B1 EP3504999 B1 EP 3504999B1 EP 19153007 A EP19153007 A EP 19153007A EP 3504999 B1 EP3504999 B1 EP 3504999B1
Authority
EP
European Patent Office
Prior art keywords
footwear
ground engaging
strand
outer member
engaging member
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.)
Active
Application number
EP19153007.0A
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English (en)
French (fr)
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EP3504999A1 (de
Inventor
Bryant Russell Klug
Tetsuya T. Minami
James Molyneux
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 Innovate CV USA
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Nike Innovate CV USA
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Filing date
Publication date
Priority claimed from US14/526,590 external-priority patent/US9420851B2/en
Application filed by Nike Innovate CV USA filed Critical Nike Innovate CV USA
Publication of EP3504999A1 publication Critical patent/EP3504999A1/de
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Publication of EP3504999B1 publication Critical patent/EP3504999B1/de
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Classifications

    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43CFASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
    • A43C1/00Shoe lacing fastenings
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B13/00Soles; Sole-and-heel integral units
    • A43B13/02Soles; Sole-and-heel integral units characterised by the material
    • A43B13/12Soles with several layers of different materials
    • A43B13/122Soles with several layers of different materials characterised by the outsole or external layer
    • 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
    • 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
    • A43B13/223Profiled soles
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B23/00Uppers; Boot legs; Stiffeners; Other single parts of footwear
    • A43B23/02Uppers; Boot legs
    • A43B23/0205Uppers; Boot legs characterised by the material
    • A43B23/0235Different layers of different material
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B23/00Uppers; Boot legs; Stiffeners; Other single parts of footwear
    • A43B23/02Uppers; Boot legs
    • A43B23/0245Uppers; Boot legs characterised by the constructive form
    • A43B23/0265Uppers; Boot legs characterised by the constructive form having different properties in different directions
    • A43B23/0275Uppers; Boot legs characterised by the constructive form having different properties in different directions with a part of the upper particularly rigid, e.g. resisting articulation or torsion
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43CFASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
    • A43C1/00Shoe lacing fastenings
    • A43C1/04Shoe lacing fastenings with rings or loops

Definitions

  • the present invention relates generally to an article of footwear and, more particularly, to configurations of strands forming lace receiving loops.
  • Lace receiving elements of footwear may be subjected to significant loading, particularly in athletic footwear. Accordingly, various structures are used to reinforce the lacing region of footwear as well as the lace receiving elements themselves.
  • lacing eyelets may include reinforcing grommets formed of metal or hard plastic.
  • the upper of the article of footwear may include a second layer of material in the area through which the laces are threaded.
  • lace receiving structures may extend down the sides of the footwear and may be secured to the sole structure in order to provide reinforcement to the footwear and stability to the wearer. For example, in some cases, strands or wires have been used to form loops forming the lace receiving elements.
  • These strands or wires may extend under the foot between the upper and the sole structure, and thus, may provide a stirrup-like structure. Such wires may provide reinforcement with minimal weight, and may allow the rest of the upper to be constructed of lighter weight and/or breathable material, while maintaining the strength and stability of the footwear.
  • the present disclosure is directed to configurations of strands arranged to form lace receiving loops.
  • the strands may be configured to extend from one side of the footwear to the other.
  • the strands may extend through the outer member (outsole) of the footwear.
  • the outer member may be formed of a relatively hard plastic material, for example in cleated footwear, and thus, the outer member may provide a relatively rigid structure in which to anchor the strands.
  • the present disclosure is directed to an article of footwear, including an upper configured to receive a foot, and a sole structure fixedly attached to a bottom portion of the upper.
  • the sole structure may include a ground-engaging outer member and the footwear may include a first strand configured to form at least a first lace receiving loop and extending through the outer member of the sole structure.
  • the present disclosure is directed to an article of footwear, including an upper configured to receive a foot and a sole structure fixedly attached to a bottom portion of the upper.
  • the sole structure may include a ground-engaging outer member and the footwear may include a first strand configured to form a plurality of lace receiving loops, including at least a first lace receiving loop on a first side of the upper and a second lace receiving loop on a second side of the upper.
  • the first strand may extend from the first side of the upper to the second side of the upper through the outer member of the sole structure.
  • the present disclosure is directed to an article of footwear, including an upper configured to receive a foot and a sole structure fixedly attached to a bottom portion of the upper.
  • the footwear may include a ground-engaging outer member and a first strand configured to form a first lace receiving loop on a medial side of the upper and a second lace receiving loop on a lateral side of the upper, the first strand extending from the medial side of the upper to the lateral side of the upper between the upper and the outer member of the sole structure.
  • the footwear may include a second strand configured to form a third lace receiving loop on the medial side of the upper and a fourth lace receiving loop on the lateral side of the upper, the second strand extending from the medial side of the upper to the lateral side of the upper through the outer member of the sole structure.
  • longitudinal refers to a direction extending a length of a sole structure, i.e., extending from a forefoot portion to a heel portion of the sole.
  • forward is used to refer to the general direction in which the toes of a foot point, and the term “rearward” is used to refer to the opposite direction, i.e., the direction in which the heel of the foot is facing.
  • lateral direction refers to a side-to-side direction extending a width of a sole.
  • the lateral direction may extend between a medial side and a lateral side of an article of footwear, with the lateral side of the article of footwear being the surface that faces away from the other foot, and the medial side being the surface that faces toward the other foot.
  • lateral axis refers to an axis oriented in a lateral direction.
  • horizontal refers to any direction substantially parallel with the ground, including the longitudinal direction, the lateral direction, and all directions in between.
  • side refers to any portion of a component facing generally in a lateral, medial, forward, and/or rearward direction, as opposed to an upward or downward direction.
  • vertical refers to a direction generally perpendicular to both the lateral and longitudinal directions. For example, in cases where a sole is planted flat on a ground surface, the vertical direction may extend from the ground surface upward. It will be understood that each of these directional adjectives may be applied to individual components of a sole.
  • upward refers to the vertical direction heading away from a ground surface, while the term “downward” refers to the vertical direction heading towards the ground surface.
  • top refers to the portion of an object substantially furthest from the ground in a vertical direction
  • bottom refers to the portion of an object substantially closest to the ground in a vertical direction
  • the foregoing directional terms when used in reference to an article of footwear, shall refer to the article of footwear when sitting in an upright position, with the sole facing groundward, that is, as it would be positioned when worn by a wearer standing on a substantially level surface.
  • fixedly attached shall refer to two components joined in a manner such that the components may not be readily separated (for example, without destroying one or both of the components).
  • Exemplary modalities of fixed attachment may include joining with permanent adhesive, rivets, stitches, nails, staples, welding or other thermal bonding, and/or other joining techniques.
  • two components may be "fixedly attached” by virtue of being integrally formed, for example, in a molding process.
  • Fig. 1 depicts an embodiment of an article of footwear 100, which may include a sole structure 105 and an upper 110 configured to receive a foot. Sole structure 105 may be fixedly attached to a bottom portion of upper 110. As shown in Fig. 1 for reference purposes, footwear 100 may be divided into three general regions, including a forefoot region 130, a midfoot region 135, and a heel region 140.
  • Forefoot region 130 generally includes portions of footwear 100 corresponding with the toes and the joints connecting the metatarsals with the phalanges.
  • Midfoot region 135 generally includes portions of footwear 100 corresponding with an arch area of the foot.
  • Heel region 140 generally corresponds with rear portions of the foot, including the calcaneus bone.
  • Forefoot region 130, midfoot region 135, and heel region 140 are not intended to demarcate precise areas of footwear 100. Rather, forefoot region 130, midfoot region 135, and heel region 140 are intended to represent general relative areas of footwear 100 to aid in the following discussion.
  • Footwear 100 may be formed of any suitable materials.
  • the disclosed footwear 100 may employ one or more materials disclosed in Lyden et al., U.S. Patent No. 5,709,954, issued January 20, 1998 , the entire disclosure of which is incorporated herein by reference.
  • Upper 110 may include one or more material elements (for example, textiles, foam, leather, and synthetic leather), which may be stitched, adhesively bonded, molded, or otherwise formed to define an interior void configured to receive a foot.
  • the material elements may be selected and arranged to selectively impart properties such as durability, air-permeability, wear-resistance, flexibility, and comfort.
  • Upper 110 may alternatively implement any of a variety of other configurations, materials, and/or closure mechanisms.
  • Sole structure 105 may have a configuration that extends between upper 110 and the ground and may be secured to upper 110 in any suitable manner.
  • sole structure 105 may be secured to upper 110 by adhesive attachment, stitching, welding, or any other suitable method.
  • Sole structure 105 may include provisions for attenuating ground reaction forces (that is, cushioning and stabilizing the foot during vertical and horizontal loading).
  • sole structure 105 may be configured to provide traction, impart stability, and/or limit various foot motions, such as pronation, supination, and/or other motions.
  • sole structure 105 may vary significantly according to one or more types of ground surfaces on which sole structure 105 may be used.
  • the disclosed concepts may be applicable to footwear configured for use on indoor surfaces and/or outdoor surfaces.
  • the configuration of sole structure 105 may vary based on the properties and conditions of the surfaces on which footwear 100 is anticipated to be used.
  • sole structure 105 may vary depending on whether the surface is harder or softer.
  • sole structure 105 may be tailored for use in wet or dry conditions.
  • Sole structure 105 may include multiple components, which may individually and/or collectively provide footwear 100 with a number of attributes, such as support, rigidity, flexibility, stability, cushioning, comfort, reduced weight, traction, and/or other attributes.
  • sole structure 105 may incorporate incompressible plates, moderators, and/or other elements that attenuate forces, influence the motions of the foot, and/or impart stability, for example.
  • sole structure 105 may also include a midsole (not shown) disposed between outer member 120 and upper 110. Such a midsole may include cushioning members, reinforcing structures, support structures, or other features.
  • An article of footwear according to the present disclosure may include a sole structure including a ground engaging outer member fixedly attached to the bottom portion of the upper.
  • the outer member may include features that provide traction and stability on any of a variety of surfaces, and in any of a variety of conditions.
  • the outer member may include a baseplate and one or more ground engaging members extending downward from the baseplate.
  • the baseplate may include a substantially flat element that supports the foot, and serves as a substantially rigid platform from which the ground engaging members may extend.
  • sole structure 105 may include a ground-contacting outer member 120.
  • Outer member 120 may include a baseplate 145.
  • Baseplate 145 may be a substantially flat, plate-like platform.
  • Baseplate 145 although relatively flat, may include various anatomical contours, such as a relatively rounded longitudinal profile, a heel portion that is higher than the forefoot portion, a higher arch support region, and other anatomical features.
  • baseplate 145 may include a bottom surface 125 exposed to the ground. Bottom surface 125 may be generally flat, but may have various contours that provide stiffness, strength, and/or traction. Exemplary such structures are discussed in greater detail below.
  • Outer member 120 may include various features configured to provide traction.
  • outer member 120 may include one or more ground-engaging members 200 extending from outer surface 125, as shown in Fig. 1 .
  • the outer member may be formed of suitable materials for achieving the desired performance attributes.
  • the outer member may be formed of any suitable polymer, rubber, composite, and/or metal alloy materials.
  • Exemplary such materials may include thermoplastic and thermoset polyurethane (TPU), polyester, nylon, glass-filled nylon, polyether block amide, alloys of polyurethane and acrylonitrile butadiene styrene, carbon fiber, poly-paraphenylene terephthalamide (para-aramid fibers, e.g., Kevlar®), titanium alloys, and/or aluminum alloys.
  • the outer member may be formed of a composite of two or more materials, such as carbon-fiber and poly-paraphenylene terephthalamide. In some embodiments, these two materials may be disposed in different portions of the outer member. Alternatively, or additionally, carbon fibers and poly-paraphenylene terephthalamide fibers may be woven together in the same fabric, which may be laminated to form the outer member. Other suitable materials, including future-developed materials, will be recognized by those having skill in the art.
  • the structural configuration may be determined such that, even though a common material is used for all portions of the outer member, the different portions may be stiffer, or more flexible due to different shapes and sizes of the components.
  • the heel and midfoot regions of the baseplate may be formed of a thicker material and/or may include reinforcing features, such as ribs, in order to provide stiffness to these portions of the outer member, whereas the forefoot region of the baseplate, particularly a region of the baseplate corresponding with the ball of the foot, may be formed of a relatively thin material, in order to provide flexibility to the forefoot region.
  • ground engaging members may be formed with a thicker structure to provide rigidity and strength.
  • the outer member may be formed by any suitable process.
  • the outer member may be formed by molding.
  • various elements of the outer member may be formed separately and then joined in a subsequent process. Those having ordinary skill in the art will recognize other suitable processes for making the outer members discussed in this disclosure.
  • the baseplate, the ground engaging members, and other elements of the outer member may be integrally formed.
  • the entirety of the outer member may be formed of a single material, forming all parts of the outer member.
  • the outer member may be formed all at once in a single molding process, for example, with injection molding.
  • different portions of the outer member may be formed of different materials.
  • a stiffer material such as carbon fiber
  • a more flexible material such as a thin polyurethane
  • the outer member may be formed by multiple molding steps, for example, using a co-molding process.
  • the baseplate may be pre-molded, and then inserted into an outer member mold, into which the ground engaging member material may be injected to form the ground engaging members, or portions of the ground engaging members.
  • the ground engaging members may be pre-molded and the baseplate may be co-molded with the pre-formed ground engaging members.
  • other components of the baseplate such as reinforcing elements, may be formed of different materials.
  • the baseplate and ground engaging members may be made separately and then engaged with one another (e.g., by mechanical connectors, by cements or adhesives, etc.).
  • the cleats and outsole components may be integrally formed as a unitary, one piece construction (e.g., by a molding step).
  • At least some portions of the sole structure may be affixed to one another or formed together as a unitary, one-piece construction, e.g., by selective laser sintering, stereolithography, or other three dimensional printing or rapid manufacturing additive fabrication techniques.
  • additive fabrication techniques allow the cleats, outsole base plates, matrix structures, support members, heel counters, and/or rear heel supports to be built as unitary structures.
  • sole structure 105 may vary significantly according to one or more types of ground surfaces on which sole structure 105 may be used. Accordingly, outer member 120 may be configured to provide traction on various surfaces, such as natural turf (e.g., grass), synthetic turf, dirt, snow. Sole structure 105 may also vary based on the properties and conditions of the surfaces on which footwear 100 is anticipated to be used. For example, sole structure 105 may vary depending on whether the surface is harder or softer. In addition, sole structure 105 may be tailored for use in wet or dry conditions. In addition, the configuration of sole structure 105, including the traction pattern of outer member 120, may vary significantly according to the type of activity for which footwear 100 is anticipated to be used (for example, running, soccer, baseball, football, and other activities).
  • type of activity for which footwear 100 is anticipated to be used for example, running, soccer, baseball, football, and other activities.
  • sole structure 105 may be configured for a particularly specialized surface and/or condition.
  • sole structure 105 may include a sole for a soccer shoe configured to provide traction and stability on soft, natural turf surfaces in wet conditions.
  • sole structure 105 may include, for example, a low number of ground engaging members, wherein the ground engaging members are aggressively shaped, and have a relatively large size.
  • an alternative embodiment of sole structure 105 may be configured to provide traction and stability on relatively firm, artificial turf surfaces in dry conditions.
  • sole structure 105 may include, for example, a larger number of ground engaging members, which may be relatively smaller in size, and may have less aggressive shapes.
  • ground engaging members While the number, size, and shape of ground engaging members are provided for exemplary purposes, other structural parameters may be varied in order to tailor the shoe for traction and stability on various surfaces, and/or in a variety of conditions. Additional such parameters may include, for example, the use of secondary traction elements, placement of ground engaging members, the relative softness or hardness of the ground engaging members and/or sole structure 105 in general, the relative flexibility of portions of sole structure 105, and other such parameters.
  • sole structure 105 may be configured for versatility.
  • sole structure 105 may be configured to provide traction and stability on a variety of surfaces, having a range of properties, and/or under various conditions.
  • a versatile embodiment of sole structure 105 may include a medium number of ground engaging members, having a medium size and moderately aggressive shapes.
  • sole structure 105 may also be configured based on the physical characteristics of the athlete anticipated to wear the footwear, and/or according to the type of activity anticipated to be performed while wearing the footwear.
  • Football players depending on the position they play, can have a wide range of physical characteristics and abilities. For example, linemen may be relatively heavy, relatively slower, but also much more powerful than players who play other positions. Linemen may place larger loads on a sole structure that may be sustained over longer durations, for example, up to one or two seconds, while engaging with opposing linemen.
  • skilled player positions such as wide receivers
  • Skilled player positions may place more explosive and transient loads on a sole structure, via sprinting, cutting, and jumping, and thus, may also maintain those loads for only a relatively short duration (for example, a split second).
  • Linebackers may have physical characteristics and abilities that represent a combination of the physical traits and abilities of linemen and wide receivers. While linebackers may possess speed and agility and operate in open field like a wide receiver, linebackers may also be larger, heavier, and more powerful, and also engage other players in tackling/blocking situations, like a lineman.
  • sole structures most suitable for each type of player may be configured differently.
  • the sole structures of linemen shoes may be configured to be more stiff and durable, and also to distribute loads across the sole of the shoe.
  • wide receiver shoes may have sole structures that are configured for light weight, more selective flexibility and stiffness at different areas of the foot, fast ground penetration and egress by ground engaging members, and lateral responsiveness.
  • a sole structure configured for use by a linebacker may be more versatile, possessing compromises of strength, stiffness, stability, light weight, directional traction, and other characteristics.
  • sole structures of a shoe may be configured for use by track and field sprinters, who only run in a straight line at high speeds and accelerations, may be configured for light weight, straight line traction, and fast surface penetration and egress.
  • the disclosed footwear may be configured for activities involving multi-directional agility.
  • the disclosed footwear may be configured for agility training and evaluation.
  • the disclosed footwear may be configured for agility testing, such as the NFL combine or other pre-draft or pre-season speed and agility evaluations.
  • Agility testing involves short, timed activities that athletes perform in order to test their athletic ability. In contrast to activities such as the 40 yard dash, which tests speed and acceleration in a straight line, agility testing evaluates an athlete's ability to accelerate, decelerate, and change directions. Further, agility testing evaluates an athlete's ability to move not only forward, but also laterally.
  • An athlete's ability to demonstrate agility is dependent on multi-directional traction between the athlete's footwear and the ground surface upon which the exercise is performed. If traction is lacking and the athlete slips during a change of direction, the change of direction cannot be performed as quickly.
  • a shoe configured for agility may enable athlete to perform to the peak of their athletic potential, because traction will not be a limiting factor, or will be less limiting than a shoe not so configured.
  • FIG. 1 depicts various embodiments of cleated footwear, having sole structures suited for multi-directional traction on natural and/or synthetic turf.
  • Footwear 100 may be suited for a variety of activities on natural and/or synthetic turf, such as agility/speed training and competition, as well as other sports, such as baseball, soccer, American football, and other such activities where traction and grip may be significantly enhanced by cleat members.
  • various features of the disclosed sole structures may be implemented in a variety of other types of footwear.
  • Exemplary disclosed ground engaging members may have one or more features that provide increased traction, directional traction, ground penetration, and/or ground extraction.
  • Such features may include, for example, shapes, sizes, positioning on the outer member, as well as the orientation of the ground engaging members.
  • Ground engaging members may be utilized at any suitable location of an outer member.
  • ground engaging members having particular shapes and configurations may be disposed at regions of the outer member corresponding with various anatomical portions of the foot.
  • one or more ground engaging members may be disposed at a location that corresponds with the first metatarsal head region of the wearer's foot and/or at the region of the foot corresponding with the distal portion of the first phalanx. An athlete may place a significant amount of their weight on these regions of their foot during certain movements, such as cutting in a lateral direction.
  • the ground engaging members may have a substantially triangular shape.
  • the ground engaging members may have a substantially triangular cross-sectional shape in a substantially horizontal plane.
  • a ground engaging member may have a substantially triangular cross-sectional shape over substantially the entire height of the ground engaging member. Accordingly, the ground engaging member may extend from the baseplate to a free end including a substantially planar tip surface that also has a substantially triangular shape. That is, the perimeter of the tip surface may have a substantially triangular shape.
  • Substantially triangular ground engaging members may provide asymmetrical traction and thus may be oriented to provide more traction in some directions and less traction in others.
  • at least two of the angles between sides of a triangle must be acute.
  • Such acute angles at the vertices of triangular ground engaging members may provide edges that may be configured to provide increased traction.
  • cleats having generally square, rectangular, parallelogram, and/or trapezoidal cross sectional shapes.
  • Such cleats still may have one edge with a vertically concave and/or horizontally concave exterior surface oriented facing away from the peripheral edge of the sole.
  • a single shoe and/or area of a shoe may have ground engaging members having different overall sizes, shapes, and/or constructions.
  • the traction provided by triangular ground engaging members may be further increased by forming the sidewalls of the ground engaging members to be concave in one or more respects.
  • the sidewall may be horizontally concave, vertically concave, or both.
  • the tip surface of a ground engaging member may have edges that are concave.
  • the concavity of ground engaging member sidewalls provides a "scoop" or “shovel” type structure to help provide a solid, non-slipping base for push off.
  • the ground engaging members may be arranged to provide increased traction during select athletic movements by orienting the concave structures in particular directions.
  • concavity of ground engaging members may reduce weight, but removing additional material. Further, concavity may increase ground penetration and/or extraction by narrowing the cross-section of the ground engaging member as compared to a non-concave ground engaging member.
  • concavity may form the substantially triangular ground engaging member with a lobe at one or more vertex of the triangle.
  • Lobes may also provide increased traction.
  • the traction provided may be substantially directional. That is, a lobe provides the most traction in a direction perpendicular to the direction in which it is elongated.
  • the orientation of each lobe may be selected to provide traction in a desired direction at a desired region of the ground engaging outer member. Accordingly, additional traction may be provided specifically in a longitudinal (forward-rearward) direction or a lateral (lateral-medial) direction, or at any angle between longitudinal and lateral.
  • torsional traction may be provided about the ground engaging member.
  • Torsional traction is a characteristic that may be either desirable or undesirable depending on the application. For example, for certain activities, it may be beneficial to have greater freedom of motion. Accordingly, for such activities, a reduced size and/or number of lobes may be utilized at regions of the foot that may serve as pivot points during the activity. For other activities, it may be desirable to provide increased torsional traction in order to increase performance. For example, it may be advantageous to provide a baseball shoe with increased torsional traction at certain portions of the foot, in order to enable a batter to generate more torque by twisting his body during a swing.
  • asymmetric outer members may be provided for left and right feet. That is, the left foot outer member may be a non-mirror image of the right foot outer member.
  • Torsional traction systems may be advantageous for any type of activity where it would be beneficial to generate torque with the body. For example, increased agility may be provided by enabling increased torque to be generated when changing directions. In addition, other exemplary such activities may involve asymmetric motions, such as throwing, swinging, kicking, and other motions. Therefore, exemplary applications where torsional traction systems could be implemented may include, for example, golf, baseball (for hitting as noted above, as well as throwing), American football (throwing by quarterback), javelin, and soccer (kicking).
  • lobes that may be manipulated to provide desired ground penetration, extraction, and traction characteristics at specific locations of the sole of an article of footwear. Accordingly, the shape, size, material, placement, orientation, and other specifications of each individual lobe may be chosen to achieve the desired performance characteristics. This customization of multiple components of a cleat system is reflected in the asymmetric and irregular lobe configurations in the disclosed embodiments. It is noted that the shape, size, orientation, and other parameters of lobes may be inconsistent among ground engaging members in the same sole structure embodiment. Further, it should also be noted that, such variation may also exist among lobes about a common ground engaging member.
  • the sizing of lobes may have a significant effect on the amount of ground penetration, extraction, and traction provided by the lobe. Accordingly, the sizing of each lobe may be selected according to considerations discussed above in order to achieve desired performance characteristics.
  • While ground penetration, extraction, and/or traction may be controlled by varying the shape of the lobes, the direction in which the traction may be provided may also be controlled. Each lobe may provide traction in multiple directions. However, due to the elongate structure, the direction of greatest traction provided by lobes may be substantially perpendicular to the direction of elongation.
  • one or more lobes may extend substantially radially from an approximate center portion of a ground engaging member. In some embodiments, one or more lobes may extend in a substantially non-radial direction. In some embodiments, all lobes abutting the same ground engaging member may extend radially from the ground engaging member. In some embodiments, all lobes abutting the same ground engaging member may extend in a substantially non-radial direction. Further, in some embodiments, both radially and non-radially oriented lobes may abut the same ground engaging member.
  • footwear 100 ground engaging members 200 may include a plurality of substantially triangular ground engaging members arranged in select orientations according to the location of each ground engaging member.
  • ground engaging members disposed proximate a peripheral edge of the outer member of the sole structure may be configured with directional traction features that provide traction resisting slipping in a direction facing away from the peripheral edge of the outer member.
  • the footwear may be provided, on the medial side of the outsole, with ground engaging members having concave sides oriented facing away from the medial edge.
  • the footwear may be provided, on the lateral side, with ground engaging members having concave sides oriented facing away from the lateral edge.
  • Such peripheral ground engaging members may be provided in any region of the foot, including the forefoot region, midfoot region, and heel region.
  • all, or substantially all, of the peripherally located ground engaging members on an outer member may be configured with concave sides oriented facing away from the peripheral edge.
  • all, or substantially all, of the ground engaging members disposed proximate to the peripheral edge along the medial side may have concave sidewalls facing away from the peripheral edge, for example, facing in a substantially lateral direction.
  • all, or substantially all of the ground engaging members disposed proximate to the peripheral edge along the lateral side may have concave sidewalls facing away from the peripheral edge, for example, facing in a substantially medial direction.
  • both the medially disposed ground engaging members and the laterally disposed ground engaging members may be configure as such.
  • Providing all, or substantially all, of the medially disposed ground engaging members and/or all, or substantially all, of the laterally disposed ground engaging members with concave sidewalls facing away from the peripheral edge may maximize the benefits discussed above regarding the characteristics of concave sidewalls and the provision of traction in medial-lateral (i.e., side-to-side) directions. Namely, such configurations may provide increased performance in terms of traction supporting lateral agility.
  • footwear 100 may include a plurality of peripheral ground engaging members disposed proximate to a peripheral edge 150 of outer member 120. In some embodiments, such peripheral ground engaging members may be located in forefoot region 130. In some embodiments, such peripheral ground engaging members may include peripheral ground engaging members located in heel region 140. In some embodiments, footwear 100 may include more or less ground engaging members as desired to provide performance characteristics suitable for the desired use.
  • footwear 100 may include a first forefoot peripheral ground engaging member 201 proximate to peripheral edge 150 along a lateral side 155 of outer member 120.
  • Footwear 100 may also include a second forefoot peripheral ground engaging member 202 and a third forefoot peripheral ground engaging member 203 proximate to peripheral edge 150 along lateral side 155.
  • footwear 100 may also include a fourth forefoot peripheral ground engaging member 204, a fifth forefoot peripheral ground engaging member 205, and a sixth forefoot peripheral ground engaging member 206 disposed proximate peripheral edge 150 along a medial side 160 of outer member 120.
  • First forefoot peripheral ground engaging member 201 may include a first concave sidewall 301 oriented facing away from peripheral edge 150. Accordingly, since first forefoot peripheral ground engaging member 201 is disposed proximate lateral side 155, first concave sidewall 301 may be oriented facing in a lateral direction. As explained in further detail below, the sidewall may be concave in one or more aspects. For example, the sidewall may be concave in a substantially horizontal plane, in a substantially vertical plane, and an edge of the tip surface may be concave in a horizontal plane.
  • Second forefoot peripheral ground engaging member 202 may include a second concave sidewall 302 oriented facing away from peripheral edge 150.
  • third forefoot peripheral ground engaging member 203 may include a third concave sidewall 303 oriented facing away from peripheral edge 150.
  • fourth forefoot peripheral ground engaging member 204 may include a fourth concave sidewall 304 oriented facing away from peripheral edge 150. Since fourth forefoot peripheral ground engaging member 204 is disposed proximate medial side 160 of outer member 120, fourth concave sidewall 304 may be oriented facing in a medial direction.
  • fifth forefoot peripheral ground engaging member 205 may include a fifth concave sidewall 305 oriented facing away from peripheral edge 150
  • sixth forefoot peripheral ground engaging member 206 may include a sixth concave sidewall 306 oriented facing away from peripheral edge 150.
  • ground engaging members in heel region 140 may also include concave sidewalls oriented facing away from the peripheral edge of the outer member of the baseplate.
  • footwear 100 may include a first heel ground engaging member 401, a second heel ground engaging member 402, a third heel ground engaging member 403, a fourth heel ground engaging member 404, and a fifth heel ground engaging member 405.
  • Fig. 2 footwear 100 may include a first heel ground engaging member 401, a second heel ground engaging member 402, a third heel ground engaging member 403, a fourth heel ground engaging member 404, and a fifth heel ground engaging member 405.
  • first heel ground engaging member 401 may include a first concave sidewall 411
  • second heel ground engaging member 402 may include a second concave sidewall 412
  • third heel ground engaging member 403 may include a third concave sidewall 413
  • fourth heel ground engaging member 404 may include a fourth concave sidewall 414
  • fifth heel ground engaging member 405 may include a fifth concave sidewall 415.
  • first concave sidewall 412, second concave sidewall 412, third concave sidewall 413, fourth concave sidewall 414, and fifth concave sidewall 415 may be oriented facing away from peripheral edge 150 of baseplate 126.
  • footwear 100 may also include ground engaging members disposed in the central portion of outer member 120, between medial side 150 and lateral side 155 of baseplate 126. Since significant loading is placed in the central portion of outer member 120 during straight-line, forward acceleration and running, such centrally located ground engaging members may be configured with features that provide traction that resists slippage in the rearward direction. For example, in some embodiments, centrally located ground engaging members may include concave sidewalls oriented facing substantially rearward.
  • footwear 100 may include a first central ground engaging member 207, a second forefoot ground engaging member 208, a third forefoot ground engaging member 209, a fourth forefoot ground engaging member 210, a fifth forefoot ground engaging member 211, and a sixth forefoot ground engaging member 212.
  • a first central ground engaging member 207 a second forefoot ground engaging member 208
  • a third forefoot ground engaging member 209 a fourth forefoot ground engaging member 210
  • fifth forefoot ground engaging member 211 may include a sixth forefoot ground engaging member 212.
  • first central ground engaging member 207 may include a first concave sidewall 307
  • second forefoot ground engaging member 208 may include a second concave sidewall 308
  • third forefoot ground engaging member 209 may include a third concave sidewall 309
  • fourth forefoot ground engaging member 210 may include a fourth concave sidewall 310
  • fifth forefoot ground engaging member 211 may include a fifth concave sidewall 311
  • sixth forefoot ground engaging member 212 may include a sixth concave sidewall 312. As shown in Fig.
  • each of first concave sidewall 307, second concave sidewall 308, third concave sidewall 309, fourth concave sidewall 310, fifth concave sidewall 311, and sixth concave sidewall 312 may be oriented facing in a substantially rearward direction.
  • one or more ground engaging members may include both a first concave sidewall oriented facing away from the peripheral edge of the baseplate and a second concave sidewall oriented facing substantially rearward.
  • sixth peripheral forefoot ground engaging member 206 may not only include sixth concave sidewall 306 facing away from peripheral edge 150, but also another concave sidewall 316 oriented facing substantially rearward. Because ground engaging member 206 is disposed in a location corresponding with the first metatarsal head, ground engaging member 206 may be subjected to significant loading in many different directions.
  • ground engaging member 206 may be subjected to the highest lateral loading in the medial direction, when cutting in a medial direction. Therefore, sixth concave sidewall 306 may provide traction that resists slipping under such medial loading. Further, because athletes often accelerate on the medial sides of their feet, ground engaging member 206 may be subjected to significant forward loading as the athlete pushes rearward during acceleration. Accordingly, concave sidewall 316 may provide traction that resists this forward loading.
  • Fig. 3 is a schematic illustration of a lower perspective view of forefoot region of the outer member shown in Fig. 2 .
  • fifth peripheral forefoot ground engaging member 205 may be disposed proximate peripheral edge 150 on medial side 160 of outer member 120.
  • multiple sides of ground engaging member 205 may be concave, thus forming a plurality of lobes between the respective sides.
  • ground engaging member 205 may include a first lobe 905, a second lobe 910, and a third lobe 916. Each lobe may extend horizontally to a sidewall edge.
  • first lobe 905 may extend to a first sidewall edge 906
  • second lobe 910 may extend to a second sidewall edge 911
  • third lobe 915 may extend to a third sidewall edge 916.
  • first sidewall edge 906, second sidewall edge 911, and third sidewall edge 916 may form vertices of the substantially triangular shape of ground engaging member 205 in a horizontal plane.
  • lobes of the ground engaging members may extend substantially radially from a central portion of the ground engaging member.
  • sidewall edges may be disposed opposite concave sidewall portions.
  • second lobe 910 of ground engaging member 205 may extend along an axis 930.
  • axis 930 may extend substantially radially from a central portion (e.g., center point 920) of ground engaging member 205.
  • axis 930 of second lobe 910 may be oriented substantially perpendicular to peripheral edge 150.
  • concave surface 305 may be oriented facing away from peripheral edge 150, for example in a direction indicated by arrow 165, which points in a direction opposite lobe 910, and thus, also substantially perpendicular to peripheral edge 150.
  • a ground engaging member may include a first sidewall, second sidewall, and third sidewall arranged to form three sides of the substantially triangular cross-sectional shape in a substantially horizontal plane.
  • the first sidewall, second sidewall, and third sidewall may all be concave in the substantially horizontal plane.
  • Fig. 4 is a schematic illustration of an enlarged view of ground engaging member 205.
  • concave sidewall 305 is shown on the right, facing in a substantially lateral direction indicated by arrow 165.
  • the sidewalls of ground engaging member 205 may be concave in one or more aspects.
  • a dashed line 455 indicates the concavity of first sidewall surface 420 of sidewall 305 in a substantially horizontal plane.
  • dashed line 460 indicates the concavity of a second sidewall surface 425 in the same substantially horizontal plane.
  • a ground engaging member may include sidewall surfaces that are concave in a substantially vertical plane. This vertical concavity may provide the ground engaging member with a tapered cross-section. This tapered cross-section may facilitate ground penetration and egress. Further, a tapered cross-section may limit the collection of soil, grass, and other debris on the outer member of the sole.
  • a dashed line 465 indicates the concavity of second sidewall surface 425 in a substantially vertical plane. As illustrated in Fig. 4 , this vertical concavity may provide ground engaging member 205 with a tapered profile, as indicated by an obtuse angle 450 where second sidewall surface 425 intersects with baseplate 126. In contrast, for example, first sidewall surface 420 may intersect with baseplate 126 at a substantially perpendicular angle 445.
  • the vertical concavity of the sidewalls may be the same for each sidewall of the ground engaging member. In other embodiments, the vertical concavity may be different for different sidewall surfaces.
  • a dashed line 470 is substantially linear, indicating a substantially straight surface in a substantially vertical direction. That is, while first sidewall surface 420 may have a substantially concave cross-sectional shape in a substantially horizontal plane, first sidewall surface may have a substantially straight cross-sectional shape in a substantially vertical plane. As further shown in Fig. 4 , this configuration may differ from second sidewall surface 425. Further, a third sidewall 430 may have either configuration.
  • the tip surface of ground engaging members may also have concave edges.
  • the edges of a substantially planar tip surface may provide traction similar to an ice skate. By providing such edges with a concavity in a substantially horizontal plane, this traction may be further increased.
  • ground engaging member 205 may include a substantially planar tip surface 435.
  • Tip surface may be substantially planar in a substantially horizontal plane.
  • first sidewall surface 420 (which may be substantially vertical) may be substantially perpendicular to tip surface 435.
  • Tip surface 435 may have a substantially triangular shape, having a first tip surface edge 421, a second tip surface edge 426, and a third tip surface edge 431.
  • at least one of first tip surface edge 421, second tip surface edge 426, and third tip surface edge 431 may be concave in the substantially horizontal plane in which tip surface 435 resides.
  • Fig. 5 is a side view of ground engaging member 205.
  • adjacent lobes may extend in substantially opposite directions, thus providing the ground engaging member with an irregular profile.
  • a first tip 505 of ground engaging member 205 adjacent to the baseplate on the side of sidewall 305 may extend a first distance 510 from first tip surface edge 421.
  • a second tip 515 may extend a second distance 520 from a tip surface vertex 525 disposed opposite first tip surface edge 421.
  • second distance 520 may be significantly greater than first distance 510.
  • the extended second tip 515 may provide additional strength under such loading.
  • the lobes of the ground engaging member adjacent to sidewall surface 305 may flare outward to provide a broader surface for engaging the ground in the direction in which traction is most desired at the location of ground engaging member 205. (See also Fig. 9 for further illustration of the irregular sizing and positioning of ground engaging member lobes.)
  • Fig. 6 shows perspective and cross-sectional views of ground engaging member 205.
  • sidewall surface 305 may form a substantially perpendicular angle 445 with lower surface 125 of baseplate 126 of outer member 120.
  • Fig. 6 further illustrates the substantially perpendicular angle 440 between sidewall surface 305 and tip surface 435.
  • the sidewall surface of the ground engaging member may concave in yet another aspect.
  • a sidewall surface of a ground engaging member may form an acute angle with the baseplate. Such a configuration may provide increased grip in the direction in which the acutely angled surface is facing.
  • Fig. 7 illustrates an alternative configuration for a ground engaging member, shown in a cross-sectional view similar to Fig. 6 .
  • a ground engaging member 700 may extend from a lower surface 725 of a baseplate 726.
  • Ground engaging member 700 may include a sidewall surface 705 and a tip surface 735.
  • sidewall surface 705 may form an acute angle 745 with lower surface 725 of baseplate 726.
  • tip surface 735 may be disposed in a substantially horizontal plane, that is, substantially parallel to lower surface 725 of baseplate 726. Accordingly, sidewall surface 705 may form an acute angle 740 with tip surface 735.
  • the sidewall surface of a ground engaging member may form a non-acute angle with the lower surface of the baseplate.
  • the sidewall surface may form a substantially perpendicular angle with the baseplate.
  • the sidewall surface may form an obtuse angle with the lower surface of the baseplate.
  • Non-acute angles such as substantially perpendicular angles or obtuse angles may provide the ground engaging member with increased ground penetration and may facilitate extraction of the ground engaging member from the ground.
  • Fig. 8 illustrates an alternative configuration for a ground engaging member, shown in a cross-sectional view similar to Fig. 6 .
  • a ground engaging member 800 may extend from a lower surface 825 of a baseplate 826.
  • Ground engaging member 800 may include a sidewall surface 805 and a tip surface 835.
  • sidewall surface 805 may form an obtuse angle 845 with lower surface 825 of baseplate 826.
  • tip surface 835 may be disposed in a substantially horizontal plane, that is, substantially parallel to lower surface 825 of baseplate 826. Accordingly, sidewall surface 805 may form an acute angle 840 with tip surface 835.
  • the lobes of the ground engaging member may extend in a substantially radial direction from the vertices of the substantially triangular tip surface. Such a configuration may provide predicable traction and may be manufactured relatively quickly.
  • Fig. 9 is a bottom view of ground engaging member 205.
  • tip surface 435 of ground engaging member 205 may have an approximate center point 920.
  • Tip surface 435 may have a first tip vertex 940 disposed on a first radial axis 925, a second tip vertex 950 disposed on a second radial axis 930, and a third tip vertex 965 disposed on a third radial axis 935.
  • ground engaging member 205 may include a first lobe 905 extending to a first sidewall edge 906.
  • ground engaging member 205 may include a second lobe 910 extending to a second sidewall edge 911.
  • ground engaging member 205 may include a third lobe 915 extending to a third sidewall edge 916.
  • First sidewall edge 906 may intersect with the baseplate at a first base vertex 945.
  • second sidewall edge 911 may intersect with the baseplate at a second base vertex 955.
  • third sidewall edge 916 may intersect with the baseplate at a third base vertex 965.
  • first base vertex 945 may be disposed along the same first axis 925 as first tip vertex 940.
  • second base vertex 955 may be disposed along the same second axis 930 as second tip vertex 950.
  • third base vertex 965 may be disposed along the same third axis 935 as third tip vertex 960.
  • Fig. 10 shows a perspective view and multiple cross-sectional views of ground engaging member 205, further illustrating the substantially radial extension of the lobes.
  • Fig. 10 illustrates the horizontal cross-sectional shape of ground engaging member 205 taken at several substantially horizontal planes along the height 1005 of ground engaging member 205 between tip surface 435 and the baseplate.
  • ground engaging member 205 has a first cross-sectional shape 1011.
  • ground engaging member 205 has a second cross-sectional shape 1016.
  • ground engaging member 205 has a third cross-sectional shape 1021.
  • ground engaging member 105 has a fourth cross-sectional shape 1026.
  • ground engaging member has a fifth cross-sectional shape 436.
  • first cross-sectional shape 1011, second cross-sectional shape 1016, third cross-sectional shape 1021, fourth cross-sectional shape 1026, and fifth cross-sectional shape 436 may all have substantially the same shape in differing sizes.
  • the sidewalls may be concave in a horizontal direction over a substantial majority of height 1005 of ground engaging member 205. In some embodiments, the sidewalls may be concave in a horizontal direction over at least 90% of the height dimension of a ground engaging member.
  • each shape is oriented in substantially the same orientation, as the lobes extend substantially radially (as shown and discussed regarding Fig. 9 ).
  • one or more lobes of a ground engaging member may extend in non-radial direction.
  • Non-radial lobes may provide a twisted configuration similar to turbine blades.
  • Such a configuration may provide increased traction in the direction in which the lobes extend, and less traction in the opposing direction. Further, such a configuration will provide rotational traction about the approximate center point of the ground engaging member that is stronger in one direction than the other. For example, such a ground engaging member may provide increased traction in a clockwise direction but not in a counter-clockwise direction.
  • Fig. 11 is a bottom view of a ground engaging member 213 (see Fig. 2 ).
  • ground engaging member 213 may be located toward a forward end of the sole in a toe region.
  • Ground engaging member 213 may be configured with non-radial lobes that provide increased traction during medial heel rotation, but allow lateral heel rotation more freely. Such directional traction may reduce undesired stress on leg anatomy, such as the knees and ankles, during twisting motions.
  • ground engaging member 213 may include a tip surface 1105.
  • Ground engaging member 213 may further include a first lobe 1110 extending to a first sidewall edge 1111, a second lobe 1115 extending to a second sidewall edge 1116, and a third lobe 1120 extending to a third sidewall edge 1121.
  • Tip surface 1105 may have a substantially triangular shape including a first tip vertex 1145, a second tip vertex 1155, and a third tip vertex 1165.
  • First tip vertex 1145 may be disposed on a first radial axis 1126 extending from an approximate center point 1125 of ground engaging member 213.
  • second tip vertex 1155 may be disposed on a second radial axis 1127 extending from center point 1125 and third tip vertex 1165 may be disposed on a third radial axis 1128 extending from center point 1125.
  • First sidewall edge 1111 of first lobe 1110 may extend to a first base vertex 1146.
  • Second sidewall edge 1116 of second lobe 1115 may extend to a second base vertex 1156.
  • third sidewall edge 1121 of third lobe 1120 may extend to a third base vertex 1166.
  • First base vertex 1146 may be disposed on a first non-radial axis 1130.
  • Second base vertex 1156 may be disposed on a second non-radial axis 1135.
  • third base vertex 1166 may be disposed on a third non-radial axis 1140. Accordingly, first lobe 1110, second lobe 1115, and third lobe 1120 may each extend on a non-radial axis.
  • First non-radial axis 1130 may be located at a first angle 1150 with respect to first radial axis 1126.
  • second non-radial axis 1135 may be located at a second angle 1160 with respect to second radial axis 1127.
  • third non-radial axis 1140 may be located at a third angle 1170 with respect to third radial axis 1128.
  • first angle 1150, second angle 1160, and third angle 1170 may be substantially the same. In other embodiments, one or more of these angles may be different than the others in order to provide directional traction.
  • Fig. 12 shows a perspective view and multiple cross-sectional views of ground engaging member 213 shown in Fig. 11 .
  • a base perimeter 1210 of ground engaging member 213 may have a base cross-sectional shape 1211.
  • ground engaging member 213 may have a first cross-sectional shape 1216.
  • ground engaging member 213 may have a second cross-sectional shape 1221.
  • ground engaging member 213 may have a third cross-sectional shape 1226.
  • tip surface 1105 may have a tip cross-sectional shape 1206.
  • Fig. 12 shows a perspective view and multiple cross-sectional views of ground engaging member 213 shown in Fig. 11 .
  • the cross-sectional shapes are substantially similar shape, but differ in size reflecting the tapered configuration of ground engaging member 213.
  • the cross-sectional shapes differ in orientation.
  • base cross-sectional shape 1211 is rotated at a base angle of 1112 with respect to tip cross-sectional shape 1206.
  • first cross-sectional shape 1216 is rotated at first angle 1217
  • second cross-sectional shape 1221 is rotated at a second angle 1222
  • third cross-sectional shape 1226 is rotated at a second angle 1227 with respect to tip cross-sectional shape 1206. As shown in Fig.
  • base angle 1212, first angle 1217, second angle 1222, and third angle 1227 differ, reflecting the increasing deviation of the lobes in non-radial directions along the height of ground engaging member 213.
  • the differences between these angles may be consistent. In other embodiments, they may vary from the top to the bottom of the ground engaging member. Further, in some embodiments, the angles may be consistent for one lobe, but may differ for other lobes on the same ground-engaging member.
  • Fig. 13 is a bottom perspective view of an arrangement of ground engaging members in heel region 140 of article of footwear 100.
  • first concave sidewall 411, second concave sidewall 412, third concave sidewall 413, fourth concave sidewall 414, and fifth concave sidewall 415 may be oriented facing away from peripheral edge 150 toward a central portion 1320 of heel region 140.
  • a lobe of second heel ground engaging member 402 may extend along an axis 1310, which may be disposed at an angle 1305 with respect to peripheral edge 150. In some embodiments, angle 1305 may be a substantially perpendicular angle.
  • second concave sidewall 412 of second heel ground engaging member 402 may be oriented facing away from peripheral edge 150 in a direction indicated by arrow 1315, toward central portion 1320. As discussed above, this configuration of ground engaging members may provide directional traction regardless of which side of the wearer's heel contacts the ground first and/or with more force.
  • Fig. 14 is another bottom perspective view of the arrangement of ground engaging members shown in Fig. 13 .
  • a ground engaging member may have a concave sidewall that is oriented facing away from peripheral edge 150, and a second concave sidewall that is oriented facing substantially rearward.
  • fourth heel ground engaging member 404 may have a fourth concave sidewall 414 that is oriented facing away from peripheral edge 150, toward central portion 1320 in a direction indicated by arrow 1316.
  • second heel ground engaging member 404 may also include a second sidewall 1405, which may be oriented facing substantially rearward, in a direction indicated by arrow 1410. As discussed above, the medial side of footwear may be loaded significantly during acceleration. Accordingly, a medially disposed ground engaging member such as second heel ground engaging member 404 may provide not only increased lateral traction, but also increased traction for straight-line acceleration.
  • Fig. 15 is a bottom view of a forefoot region of an article of footwear 1500 showing longitudinal overlapping of ground engaging members.
  • Footwear 1500 and the ground engaging members shown in Fig. 15 may have any of the features described above regarding other embodiments, including the embodiment shown in Fig. 2 , which is shown having the same configuration of ground engaging members.
  • the forefoot region of footwear 1500 may have a longitudinal length 1501 extending from a rearmost forefoot ground engaging member 1502 and a forward-most forefoot ground engaging member 1503.
  • footwear 1500 has a lateral side 1560 and a medial side 1565.
  • Footwear 1500 may include an upper 1505 and a sole structure 1506 fixedly attached to a bottom portion of upper 1505.
  • Sole structure 1506 may include a ground engaging outer member 1507, which may include a baseplate 1510 having a ground engaging bottom surface 1515.
  • outer member 1507 may include a plurality of ground engaging members extending substantially downward from bottom surface 1515 of baseplate 1510.
  • ground engaging members may be longitudinally overlapping.
  • the ground engaging members of the forefoot region may be disposed overlapping one another in a longitudinal direction such that all portions of the longitudinal length of the forefoot region are occupied by at least one ground engaging member.
  • ground engaging members may be longitudinally overlapping along the entire longitudinal length of forefoot region.
  • portions of the forefoot region may have a reduced number of ground engaging members, in order to provide the outer member with flexibility.
  • Such portions may include at least one ground engaging member, however, in order to provide traction in the lateral direction.
  • outer member 1507 may include at least a first ground engaging member 1521, a second ground engaging member 1522, a third ground engaging member 1523, and a fourth ground engaging member 1524.
  • a substantial majority of first ground engaging member 1521 may be disposed further rearward than a substantial majority of second ground engaging member 1522, and portions of first ground engaging member 1521 and second ground engaging member 1522 may overlap longitudinally along longitudinal length 1501 of the forefoot region.
  • first ground engaging member 1521 may include a first forward-most portion 1525.
  • Second ground engaging member 1522 may include a second rearward-most portion 1526. As shown in Fig.
  • first ground engaging member 1521 may longitudinally overlap with second ground engaging member 1522.
  • first forward-most portion 1525 of first ground engaging member 1521 may extend further forward than second rearward-most portion 1526 of second ground engaging member 1522.
  • first ground engaging member 1521 may longitudinally overlap with second ground engaging member 1522 in a first overlapping region 1531.
  • second ground engaging member 1522 and third ground engaging member 1523 may longitudinally overlap one another.
  • second ground engaging member 1522 may include a third forward-most portion 1527
  • third ground engaging member 1523 may include a fourth rearward-most portion 1528.
  • third forward-most portion 1527 of second ground engaging member 1522 may extend further forward than fourth rearward-most portion 1528 of third ground engaging member 1523.
  • second ground engaging member 1522 may longitudinally overlap with third ground engaging member 1523 in a second overlapping region 1545.
  • third ground engaging member 1523 may longitudinally overlap with fourth ground engaging member 1524. As shown in Fig. 15 , third ground engaging member 1523 may include a fifth forward-most portion 1529 and fourth ground engaging member 1524 may include a sixth rearward-most portion 1530. In some embodiments, fifth forward-most portion 1529 of third ground engaging member 1523 may extend further forward than sixth rearward-most portion 1530 of fourth ground engaging member 1524. Thus, third ground engaging member 1523 may longitudinally overlap with fourth ground engaging member 1524 in a third overlapping region 1550.
  • second ground engaging member 1522 may be the sole ground engaging member disposed in the laterally-extending region that corresponds with the metatarso-phalangeal joints of the foot of a wearer. This may provide flexibility to facilitate foot flexion, while maintaining traction in the lateral direction.
  • Fig. 16 is a partial lateral side view of the article of footwear shown in Fig. 15 .
  • first ground engaging member 1521, second ground engaging member 1522, third ground engaging member 1523, and fourth ground engaging member 1524 may overlap one another.
  • first ground engaging member 1521 may longitudinally overlap second ground engaging member 1522 in first overlapping region 1531 by a longitudinal overlapping distance 1535.
  • the minimum height of the ground engaging member profile in overlapping region 1531 is indicated by a minimum height dimension 1540.
  • ground engaging members may be longitudinally abutting one another, such that no overlapping region exists, but no longitudinal gap exists. In such embodiments, the minimum height would be zero or substantially zero at one longitudinal point between the abutting ground engaging members.
  • lace receiving elements may be formed by one or more strands.
  • the strands may be arranged to form lace receiving loops configured to receive laces in the lacing region of the article of footwear.
  • the strands may extend from the lacing region down the sides of the article of footwear to the sole structure. In some embodiments, the strands may extend from one side of the article of footwear to the other under the foot of the wearer.
  • the strands may be made of any suitable material.
  • the strands may be formed with a predetermined amount of elasticity. Use of elastic strands may provide comfort by allowing a limited amount of expansion of the footwear during movement of the wearer's foot.
  • the strands may be formed to be substantially inelastic. Such inelastic strands may provide consistent, and therefore, predictable tension. In some embodiments, such consistent tension provided by substantially inelastic strands may enable the wearer to fasten the laces more tightly.
  • Fig. 17 is a partial side view of an article of footwear 1700 including an upper 1705 and a sole structure 1710.
  • Sole structure 1710 may include a ground-contacting outer member 1715, which may be fixedly attached to a lower portion of upper 1705.
  • Footwear 1700 may also include a lacing region 1725. As shown in Fig. 17 , in some embodiments, lacing region 1725 may be located in an instep region 1730 of upper 1705 of footwear 1700.
  • Footwear 1700 may include any of the features of the upper and sole structure described above.
  • footwear 1700 may include a strand 1735 forming a lace receiving loop 1740, configured to receive a lace 1745.
  • Fig. 17 As shown in Fig. 17 , footwear 1700 may include a strand 1735 forming a lace receiving loop 1740, configured to receive a lace 1745.
  • strand 1735 may be secured to upper 1705 with stitching 1750.
  • strand 1735 may be fixedly attached to upper 1705.
  • strand 1735 may be secured to upper 1705 with stitching 1750.
  • strand 1735 may be secured to upper 1735 proximate to lace receiving loop 1740.
  • the location of the lace receiving loop may be maintained at a desired location to facilitate predictable adjustment of footwear 1700 with lace 1745.
  • Fig. 18 is a lateral side view of an article of footwear 1800 including a plurality of strands 1828 forming lace receiving loops.
  • footwear 1800 may include an upper 1805 and a sole structure 1810.
  • Upper 1805 may have any of the features described above regarding other disclosed embodiments.
  • footwear 1800 may have a forefoot region 1812, a midfoot region 1813, and a heel region 1814.
  • Footwear 1800 may further include a lateral side 1815.
  • footwear 1800 may include an opening 1817 configured to receive a foot of a wearer into the void defined by upper 1805.
  • sole structure 1810 may include a ground-engaging outer member 1811.
  • outer member 1811 may be a cleated sole component, as shown in Fig. 18 .
  • outer member 1811 may be substantially incompressible.
  • outer member 1811 may be formed of a relatively hard plastic material.
  • portions of outer member 1811 may also be relatively rigid (inflexible) in bending and/or torsion.
  • footwear 1800 may include an instep region 1820.
  • Footwear 1800 may include a lacing region 1825 in instep region 1820.
  • footwear 1800 may include a plurality of strands 1828 forming lace receiving loops in lacing region 1825.
  • plurality of strands 1828 may include a first strand 1830 and a second strand 1850.
  • Plurality of strands may also include a third strand 1865.
  • strands may extend between the upper and the outer member of the sole structure. In some embodiments, one or more strands may extend through the outer member.
  • the outer member of various types of footwear may be relatively rigid in some portions. For example, in cleated footwear, such as footwear 1800, the outer member may be formed of a substantially incompressible material such as hard plastic. Further, in some portions, such as the midfoot and heel regions of the footwear, the outer member may be substantially rigid. Therefore, by threading the lace receiving strands through the outer member, the lace receiving strands may be secured to a relatively stable structure, enabling a strong and consistent tension to be applied with the laces of the footwear.
  • a strand may extend through the outer member in two or more places. This may increase the reinforcement provided by anchoring the strand through the outer member.
  • first strand 1830 may extend through a first through-hole 1835 and a second through-hole 1840 in midfoot region 1813 of outer member 1811.
  • second strand 1850 may extend through a third through-hole 1855 and a fourth through-hole 1860 in outer member 1811.
  • First strand 1830 may exit outer member 1811 on the medial side of footwear 1800 and extend diagonally over instep region 1820, as shown in Fig. 18 . ( See also Figs. 19 and 20 .)
  • the strands may form lace receiving loops in lace region 1825 of instep region 1820.
  • first strand 1830 may form a first lace receiving loop 1831 on lateral side 1815 of footwear 1800.
  • Second strand 1850 may form a second lace receiving loop 1851.
  • third strand 1865 may form a third lace receiving loop 1870.
  • Fig. 19 is a top view of footwear 1800 shown in Fig. 18 .
  • first strand 1830 and second strand 1850 may extend diagonally across instep region 1820 from medial side 1816 to lateral side 1815 of footwear 1800.
  • first strand 1830 and second strand 1850 may extend under upper 1805 in forefoot region 1812.
  • first strand 1830 may extend up medial side 1815 of footwear 1800 and form a fourth lace receiving loop 1832.
  • second strand 1850 may extend up medial side 1815 of footwear 1800 and form a fifth lace receiving loop 1852. ( See also Fig. 23 .)
  • Fig. 20 is a medial side view of footwear 1800 shown in Figs. 18 and 19 .
  • first strand 1830 may exit from first through-hole 1835 and second through-hole 1840 in outer member 1811 and extend up medial side 1816 of foot wear 1800 and across instep region 1820 to the lateral side of footwear 1800. Then, after passing under upper 1805 between upper 1805 and outer member 1811 in forefoot region 1812, first strand 1830 may extend up medial side 1815 in forefoot region 1812 to form fourth lace receiving loop 1832.
  • second strand 1850 may exit from third through-hole 1855 and fourth through-hole 1860 in outer member 1811 and extend up medial side 1816 of foot wear 1800 and across instep region 1820 to the lateral side of footwear 1800. Then, after passing under upper 1805 between upper 1805 and outer member 1811 in forefoot region 1812, second strand 1850 may extend up medial side 1815 in forefoot region 1812 to form fifth lace receiving loop 1852.
  • the footwear may have any suitable combination of components.
  • the upper may have various combinations of layers.
  • the layers may be formed of a variety of materials, including meshes, leathers, synthetic leathers, and selectively placed reinforcing materials.
  • the strands may be disposed at various locations within the layering of the upper. Some strands may be substantially exposed. A substantial majority of some strands may be disposed underneath at least one layer of the upper. In some cases, the only exposed portion of the strands may be the lace receiving loop formed by the strands.
  • Fig. 21 is an exploded view of footwear 1800 shown in Fig. 18 .
  • upper 1805 may include a first upper layer 1870 and a second upper layer 1875.
  • first upper layer 1870 may be a full length layer.
  • first upper layer 1870 may include a breathable mesh.
  • first upper layer 1870 may include a spacer mesh.
  • Second upper layer 1875 may be a partial length layer.
  • second upper layer 1875 may extend over a portion of the surface area of first upper layer 1870.
  • second upper layer 1875 may be a reinforcing layer.
  • second upper layer 1875 may be substantially transparent. Accordingly, portions of first upper layer 1870 and portions of strands may be visible through second upper layer 1875.
  • upper 1805 may include one or more additional layers, such as liners, reinforcing layers, and any other suitable components.
  • first strand 1830 and second strand 1850 may be disposed over first upper layer 1870.
  • third strand 1865 may also be disposed over first upper layer 1870.
  • One or more portions of first strand 1830, second strand 1850, and third strand 1865 may be disposed underneath a portion of second upper layer 1875.
  • first strand may be disposed between first upper layer 1870 and second upper layer 1875, with a portion of first strand 1830 remaining exposed to form first lace receiving loop 1831.
  • Fig. 23 is a bottom view of the article of footwear shown in Fig. 18 .
  • Fig. 23 illustrates the configuration of first strand 1830 and second strand 1850 with respect to outer member 1811.
  • first strand 1830 and second strand 1850 may extend through a centrally-located, longitudinal rib 1885 in outer member 1811. That is, first through-hole 1835, second through hold 1840, third through-hole 1855, and fourth through-hole 1860 may be laterally-oriented passing through rib 1885.
  • Rib 1885 may provide rigidity in midfoot region 1813 and heel region 1814.
  • rib 1885 may provide resistance to bending and torsional rotation between forefoot region 1812 and heel region 1814.
  • first strand 1830 and 1850 may be stitched to upper 1805 in a stitched area 1880 of medial side 1816 of upper 1805. This may maintain the strands in the desired location.
  • first strand 1830 and second strand 1850 may extend under upper 1805 between upper 1805 and outer member 1811 in forefoot region 1812 of footwear 1800, as visible within the split-toe portion of outer member 1811.
  • This arrangement of the strands may be less rigidly anchored than portions that extend through outer member 1811.
  • rigid anchoring of strands may be desired in midfoot region of the footwear, the forefoot region of the foot may be more dynamic, and thus, a more flexible configuration of the strands may be desired to allow the various movements of the forefoot.
  • assembling the strands between the upper and the outer member may be but may be more easily and less expensively manufactured than assembling the strands through the outer member. Accordingly, by selectively extending the strands through the outer member in some areas and between the upper and outer member in other areas, rigid anchoring may be selectively provided in desired areas of the footwear, while maintaining desired characteristics of forefoot fit (e.g., flexibility) as well as cost effectiveness of manufacturing the footwear overall.
  • Fig. 24 is a bottom view of the heel region of the article of footwear shown in Fig. 18 .
  • rib 1885 may have a downwardly projecting structure with angled side portions.
  • rib 1885 may include a first sidewall 1890 and a second sidewall 1895.
  • First through-hole 1835, second through hold 1840, third through-hole 1855, and fourth through-hole 1860 may each extend from first sidewall 1890 to second sidewall 1895.
  • Fig. 25 is a schematic illustration of a threading arrangement of the strands of footwear 1800 shown in Fig. 18 .
  • Fig. 25 shows forefoot region 1812 and midfoot region 1813 of components of upper 1805, including first upper layer 1870 and second upper layer 1875.
  • Fig. 25 also illustrates the threading of first strand 1830 and second strand 1850.
  • the dashed lines in Fig. 25 indicate the location of first strand 1830 and second strand 1850 where they pass under upper 1805.
  • the strands may pass through outer member 1811 in midfoot region 1813 and between upper 1805 and outer member 1811 in forefoot region 1812.
  • first strand 1830 may be substantially the same as second strand 1850, as shown in Fig. 25 .
  • threading of first strand 1830 and second strand 1850 may be substantially different from one another.
  • the strands may have a figure eight strand arrangement.
  • Such a figure eight strand arrangement may provide a locked down, supportive fit over a substantial surface area of the foot using minimal material, and thus, minimal weight.
  • the footwear may include one or more strands forming a first lace receiving loop disposed proximate an instep region on a first side of the upper, and a pair of strands extending from the first lace receiving loop down the first side of the upper to the sole structure.
  • the strands of the figure eight strand arrangement may further pass through the outer member of the sole structure, extend up a second side of the upper and diagonally across the instep region of the upper, down the first side of the upper, and under the upper and up the second side of the upper.
  • the strands may then form a second lace receiving loop proximate the instep region on the second side of the upper diagonally opposite the first lace receiving loop.
  • second strand 1850 may be threaded down lateral side 1815 of upper 1805, as indicated by a first arrow 1900. Second strand 1850 may then extend in a medial direction under midfoot region 1813 of upper 1805, as shown by a second arrow 1905. Second strand 1850 may then be threaded up medial side 1816, as indicated by a third arrow 1910, and diagonally across the instep region, as indicated by a fourth arrow 1915. Second strand 1850 may extend down medial side 1815 in forefoot region 1812, as indicated by a fifth arrow 1920, and across under forefoot region 1812 of upper 1805 in a medial direction, as indicated by a sixth arrow 1925. Second strand 1850 may then be threaded up medial side 1815 of upper 1805, as indicated by a seventh arrow 1930, to fifth lace receiving loop 1852.
  • Second strand 1850 may then be threaded in the reverse direction as described above. That is, second strand 1850 may be threaded down medial side 1815, as indicated by an eighth arrow 1935, and across under upper 1805 in a lateral direction, as indicated by a ninth arrow 1940. Second strand 1850 may then be threaded up lateral side 1816 of upper 1805, as indicated by a tenth arrow 1945, and diagonally across the instep region, as indicated by an eleventh arrow 1950. Second strand 1850 may be further threaded down medial side 1815, as indicated by a twelfth arrow 1955, and across under upper 1805 in a lateral direction, as indicated by a thirteenth arrow 1960. Finally, second strand 1850 may extend up lateral side 1816, as indicated by fourteenth arrow 1965 to second lace receiving loop 1851.
  • the circuit of second strand 1850 may be closed by stitching portions of second strand 1850 to itself.
  • a first end 1853 of second strand 1850 may be overlapped with a second end 1854 of second strand 1850 in an overlapping region 1970.
  • first end 1853 may be fixedly attached to second end 1854.
  • first end 1853 may be fixedly attached to second end 1854 with stitching 1975.
  • first end 1853 may be fixedly attached to second end 1854 with stitching 1980.
  • Overlapping region 1970 may form at least a portion of second lace receiving loop 1851. Accordingly, in addition to securing first end 1853 to second end 1854, stitching 1975 and 1980 may also fixedly attach second strand 1850 to upper 1805 proximate to second lace receiving loop 1851.
  • portions of first strand 1830 and second strand 1850 may extend between first upper layer 1870 and second upper layer 1875. In some embodiments, portions of first strand 1830 and second strand 1850 may extend above (extemal to) second upper layer 1875. For example, as shown in Fig. 25 , the strands may extend over a medial midfoot portion 1985 of second upper layer 1875. Similarly, the strands may extend over a lateral forefoot portion 1990 of second upper layer 1875.
  • Fig. 26 is a schematic illustration of another threading arrangement of the strands of footwear 1800 shown in Fig. 18 . While the positioning of the strands in Fig. 26 is substantially the same as in Fig. 25 , Fig. 26 illustrates an alternative manner in which to achieve the strand arrangement.
  • the strands may extend between first upper layer 1870 and second upper layer 1875 in medial midfoot portion 1895 and in lateral forefoot portion 1900.
  • the arrangement is achieved in Fig. 25 by threading a strand in one direction, doubling the strand back on itself, and fixedly attaching the strand to itself at one end to close the circuit
  • the arrangement is achieved in Fig. 26 by threading two strands in parallel, and then fixedly attaching the two strands to each other at both ends to close the circuit.
  • second strand 1850 may be formed of parallel strands threaded about upper 1805 and secured to one another at each end.
  • second strand 1850 may be threaded in opposing directions from the relative center portion of second strand 1850 in the instep region of upper 1805.
  • Second strand 1850 may be threaded downward toward lateral side 1815 in forefoot region 1812, as indicated by arrows 1995.
  • second strand 1850 may be disposed under at least a portion of second upper layer 1875. Accordingly, second strand 1850 may be threaded through a first slot 1996 in second upper layer 1875 as second strand 1850 approaches the sole structure.
  • Second strand 1850 may be threaded in a medial direction under forefoot region 1812 of upper 1805, as indicated by arrows 2015, and then upward along medial side 1816 of forefoot region 1812, as indicated by arrows 2020, to fifth lace receiving loop 1852.
  • second strand 1850 may be threaded diagonally toward medial side 1816 in forefoot region 1813, as indicated by arrows 2000.
  • second strand 1850 may extend under a portion of second upper layer 1875, and may be threaded through a second slot 2001 in second upper layer 1875.
  • Second strand 1850 may further be threaded in a lateral direction under upper 1805, as indicated by arrows 2005, and upwards along lateral side 1815, as indicated by arrows 2010, to second lace receiving loop 1851.
  • fifth lace receiving loop 1852 may also have an overlapping region 2025, formed by first end 2021 and second end 2022 being over lapped and secured to one another with first stitching 2030 and second stitching 2035.
  • the configuration of overlapping region 2025 may be substantially the same as the configuration of overlapping region 1970 described above.
  • the strand may be alternately threaded up and down between the lacing region and the sole structure to form one or more lace receiving loops.
  • the ends of the strand may be anchored to the outer member of the sole structure.
  • the ends of the strand may extend through-holes in the outer member and may be anchored by knots, which prevent the ends of the strand from being pulled through the holes in the outer member.
  • Fig. 27 is a bottom view of an article of footwear 2700 including strands having ends anchored in the outer member of the sole structure.
  • footwear 2700 may include an upper 2705 and a sole structure 2710.
  • the sole structure 2710 may include an outer member 2711.
  • Footwear 2700 may include a forefoot region 2712, a midfoot region 2713, and a heel region 2714.
  • footwear 2700 may have a lateral side 2715 and a medial side 2716.
  • Outer member 2711 may include a central, longitudinally extending rib 2717, having a first side wall 2718 and a second side wall 2719.
  • Footwear 2700 may include one or more strands that are anchored at the ends of the strands to outer member 2711.
  • footwear 2700 may include a first strand 2720.
  • First strand 2720 may be anchored to outer member 2711 at one end of first strand 2720.
  • first strand may extend through rib 2717 of outer member 2711, and may include a first knot 2745 at the end of first strand 2720 configured to prevent strand 2720 from being pulled through a first aperture 2731 in first side wall 2718.
  • Knot 2745 may be any suitable knot configured to enlarge the diameter of first strand 2720.
  • first strand 2720 may have an additional feature mounted on the end of first strand 2720 to enlarge the diameter at the end of first strand 2720.
  • first strand 2720 may extend through rib 2717 from first aperture 2735 and may exit from a second aperture 2732.
  • a first exposed segment 2721 of first strand 2720 may extend from second aperture 2732 up lateral side 2715 of upper 2705 and return in a second exposed segment 2722. The turn between first exposed segment 2721 and second exposed segment 2722 may form a lace receiving loop. (See Fig. 29 .)
  • Second exposed segment 2722 may extend to a third aperture 2733.
  • First strand 2720 may extend through rib 2717 from third aperture 2733 to a fourth aperture 2734.
  • a third exposed segment 2723 of first strand 2720 may extend up the medial side 2716 to the instep region of the footwear. Third exposed segment 2723 may transition to a fourth exposed segment 2724, thereby forming a lace receiving loop. (See Fig. 29 .) Fourth exposed segment 2724 may extend down to fifth aperture 2735, wherein first strand 2720 may enter outer member 2711. First strand 2720 may exit from a sixth aperture 2736, and a fifth exposed segment 2725 may extend up the lateral side 2715 of upper 2705 and transition to a sixth exposed segment 2726, thereby forming another lace receiving loop on lateral side 2715 of upper 2705. (See Fig. 29 .)
  • Sixth exposed segment 2726 may extend to a seventh aperture 2737, where first strand 2720 may enter outer member 2711. First strand 2720 may exit outer member 2711 from an eighth aperture 2738, and a seventh exposed segment 2727 of first strand 2720 may extend up medial side 2716 of upper 2705, transition to an eighth exposed segment 2728, thereby forming another lace receiving loop on medial side 2716. (See Fig. 29 .) Eighth exposed segment 2728 may extend down to a ninth aperture 2739, where first strand 2720 may extend through outer member 2711 from ninth aperture 2739 to a tenth aperture 2740. First strand 2720 may terminate in a second knot 2750, which may prevent that end of first strand 2720 from pulling through outer member 2711. Thus both ends of first strand 2720 may be anchored to outer member 2711.
  • footwear 2700 may include a second strand 2760.
  • Second strand 2760 may be threaded in an oscillating fashion similar to first strand 2720, but in forefoot region 2712 of footwear 2700.
  • second strand 2760 may extend through outer member 2711 in multiple places. For a given length of second strand 2760 that extends between lateral side 2715 and medial side 2716 of footwear 2700, second strand may extend through outer member 2711 more than once.
  • outer member 2711 may include a plurality of apertures proximate to the lateral edge and a plurality of apertures proximate to the medial edge of outer member 2711. In order to illustrate these opposing apertures, Figs.
  • FIG. 27 and 28 show the same embodiment, at slightly different perspectives.
  • Fig. 27 although a bottom view, shows footwear 2700 slightly rotated toward medial side 2716, thereby exposing the apertures and exposed segments of second strand 2760 at the lateral edge of outer member 2711.
  • Fig. 28 shows footwear 2700 slightly rotated toward lateral side 2715, thereby exposing the apertures and exposed segments of second strand 2760 at the medial edge of outer member 2711.
  • second strand 2760 may be anchored by a third knot 2755 at a first aperture 2781.
  • Second strand 2760 may extend within or above outer member 2711 from first aperture 2781 to a second aperture 2782, from which a first exposed segment 2761 of second strand 2760 may extend.
  • First exposed segment 2761 may extend to a third aperture 2783, into which second strand 2760 may enter outer member 2711.
  • Second strand 2760 may extend through or above outer member 2711 to a fourth aperture 2784.
  • a second exposed segment 2762 may extend from fourth aperture 2784 up lateral side 2715 of footwear 2715.
  • Second exposed segment 2762 may transition to a third exposed segment 2763 proximate to the lacing region of footwear 2700, thus forming a lace receiving loop. (See Fig. 30 .)
  • Third exposed segment 2763 may extend to a fifth aperture 2785.
  • Second strand 2720 may continue this oscillating pattern shown in Figs. 27 , 28 , and 30 as follows. Second strand 2720 may enter outer member 2711 at fifth aperture 2785, exit via a sixth aperture 2786, and a fourth exposed segment 2764 of second strand 2760 may extend to and enter a seventh aperture 3786.
  • a fifth exposed segment 2765 (see Fig. 28 ) may extend from an eighth aperture 2787 up to the lacing region and transition to a sixth exposed segment 2766, thereby forming a lace receiving loop (see Fig. 30 ).
  • Sixth exposed segment 2766 may extend back down to a ninth aperture 2788, and second strand 2720 may extend through (or above) outer member 2711 to a tenth aperture 2789.
  • a seventh exposed segment 2767 may extend across the gap in the split toe region of outer member 2711, and second strand 2760 may enter outer member 2711 again at an eleventh aperture 2790.
  • Second strand 2760 may extend from eleventh aperture 2790 through or above outer member 2711 and may exit from a twelfth aperture 2791, and an eighth exposed segment 2768 may extend up to the lacing region and transition to a ninth exposed segment 2769, thereby forming a lace receiving loop (see Fig. 30 .) Ninth exposed segment 2769 may extend to a thirteenth aperture 2792, wherein second strand 2760 may enter outer member 2711. Second strand 2760 may extend from thirteenth aperture 2792 through or above outer member 2711, and may exit from a fourteenth aperture 2793, with a tenth exposed segment 2770 of second strand 2760 extending to a fifteenth aperture 2794.
  • Second strand 2760 may enter outer member 2711 at fifteenth aperture 2794 and may extend through or above outer member 2711 to a sixteenth aperture 2795 (see Fig. 28 ).
  • An eleventh exposed segment 2771 of second strand 2760 may extend from sixteenth aperture 2795 up to the lacing region and transition to a twelfth exposed segment 2772, thereby forming a lace receiving loop. (See Fig. 30 .)
  • Twelfth exposed segment 2772 may extend down to a seventeenth aperture 2796, into which second strand 2760 may enter and extend through or above outer member 2711 to an eighteenth aperture 2797.
  • second strand 2760 may further include a fourth knot 2773, which may prevent second strand 2760 from being pulled through outer member 2711, thus anchoring the terminal end of second strand 2760 to outer member 2711.
  • Fig. 29 is a top view showing the midfoot threading arrangement of footwear 27 shown in Fig. 27 .
  • the first strand may oscillate back and forth across the bottom side of footwear 2700, and may extend up alternatingly to the lateral and medial sides of footwear 2700 to form lace receiving loops on either side of the lacing region in the midfoot region.
  • Fig. 30 is a top view showing the forefoot threading arrangement of footwear 2700 shown in Figs. 27 and 28 .
  • the labeling of Fig. 30 has been reduced as compared to Fig. 29 for purposes of illustration.
  • the second strand may oscillate back and forth across the bottom side of footwear 2700, and may extend up alternatingly to the lateral and medial sides of footwear 2700 to form lace receiving loops on either side of the lacing region in the forefoot region.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)

Claims (15)

  1. Ein Fußbekleidungsartikel (1800), der Folgendes umfasst:
    ein Obermaterial (1805);
    eine Sohlenstruktur (1810), die ein mit dem Boden in Eingriff stehendes bzw. bodeneingreifendes äußeres Element (1811) beinhaltet; und
    einen ersten Strang (1830), der sich von einer medialen Seite (1816) des Fußbekleidungsartikels (1800) durch ein erstes Durchgangsloch (1835), das im bodeneingreifenden äußeren Element (1811) ausgebildet ist, bis zu einer lateralen Seite (1815) des Fußbekleidungsartikels (1800) erstreckt.
  2. Der Fußbekleidungsartikel (1800) nach Anspruch 1, wobei sich der erste Strang (1830) von der lateralen Seite (1815) durch ein zweites Durchgangsloch (1840), das im bodeneingreifenden äußeren Element (1811) ausgebildet ist, bis zur medialen Seite (1816) erstreckt.
  3. Der Fußbekleidungsartikel (1800) nach Anspruch 2, wobei das zweite Durchgangsloch (1840) vom ersten Durchgangsloch (1835) in einer Richtung beabstandet ist, die sich entlang einer Längsachse der Sohlenstruktur (1810) erstreckt.
  4. Der Fußbekleidungsartikel (1800) nach Anspruch 3, wobei das erste Durchgangsloch (1835) und das zweite Durchgangsloch (1840) in einem Mittelfußbereich (1813) des bodeneingreifenden äußeren Elements (1811) angeordnet sind.
  5. Der Fußbekleidungsartikel (1800) nach Anspruch 1, wobei die Sohlenstruktur (1810) am Obermaterial (1805) befestigt ist und/oder wobei die Sohlenstruktur (1810) ein starres äußeres Element beinhaltet, das eine bodenberührende Oberfläche definiert, und/oder wobei sich der erste Strang (1830) entlang einer äußeren Oberfläche des Obermaterials (1805) erstreckt.
  6. Der Fußbekleidungsartikel (1800) nach irgendeinem der vorstehenden Ansprüche, wobei das bodeneingreifende äußere Element (1811) eine Längsrippe (1885) beinhaltet, wobei sich das erste Durchgangsloch (1835) durch die Längsrippe (1885) erstreckt.
  7. Der Fußbekleidungsartikel (1800) nach Anspruch 6, wobei sich die Längsrippe (1885) entlang einer Längsachse der Sohlenstruktur erstreckt.
  8. Der Fußbekleidungsartikel (1800) nach Anspruch 6, wobei das erste Durchgangsloch (1835) Folgendes definiert: eine erste Öffnung, die im bodeneingreifenden äußeren Element (1811) an einer medialen Seite (1816) der Längsrippe (1885) ausgebildet ist, und eine zweite Öffnung, die im bodeneingreifenden äußeren Element (1811) an einer lateralen Seite (1815) der Längsrippe (1885) ausgebildet ist.
  9. Der Fußbekleidungsartikel (1800) nach irgendeinem der vorstehenden Ansprüche, ferner umfassend einen zweiten Strang (1850), der sich von der medialen Seite (1816) des Fußbekleidungsartikels, durch ein im bodeneingreifenden äußeren Element (1811) ausgebildetes drittes Durchgangsloch (1855), bis zur lateralen Seite (1815) des Fußbekleidungsartikels erstreckt.
  10. Der Fußbekleidungsartikel (1800) nach Anspruch 9, wobei der zweite Strang (1850) vom ersten Strang (1830) beabstandet ist.
  11. Der Fußbekleidungsartikel (1800) nach irgendeinem der vorstehenden Ansprüche, wobei der erste Strang (1830) einem Abschnitt des bodeneingreifenden äußeren Elements (1811) gegenüberliegt und/oder wobei der erste Strang (1830) vom ersten Durchgangsloch (1835) im bodeneingreifenden äußeren Element (1811) ausgeht.
  12. Der Fußbekleidungsartikel (1800) nach irgendeinem der vorstehenden Ansprüche, ferner umfassend einen zweiten Strang (1850), der sich unter dem Obermaterial (1805) in einem Vorderfußbereich (1812) des Fußbekleidungsartikels (1800) erstreckt.
  13. Der Fußbekleidungsartikel (1800) nach Anspruch 12, wobei der erste Strang (1830) in einem Mittelfußbereich (1813) des bodeneingreifenden äußeren Elements (1811) angeordnet ist.
  14. Der Fußbekleidungsartikel (1800) nach Anspruch 12 oder 13, wobei sich der zweite Strang (1850) durch das bodeneingreifende äußere Element (1811) an der medialen Seite (1816) und an der lateralen Seite (1815) nach oben erstreckt.
  15. Der Fußbekleidungsartikel (1800) nach irgendeinem der Ansprüche 12-14, wobei sich der zweite Strang (1850) an der medialen Seite (1816) des Fußbekleidungsartikels (1800) und an der lateralen Seite (1815) des Fußbekleidungsartikels (1800) nach oben erstreckt, insbesondere wobei der zweite Strang (1850) eine Schnürsenkel-Aufnahmeschleife (1851, 1852) an der medialen Seite (1816) des Fußbekleidungsartikels (1800) und an der lateralen Seite (1815) des Fußbekleidungsartikels (1800) bildet.
EP19153007.0A 2014-01-08 2014-10-30 Schuhwerk mit schnürsenkelaufnahmesträngen Active EP3504999B1 (de)

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US201461924958P 2014-01-08 2014-01-08
US14/526,590 US9420851B2 (en) 2013-12-31 2014-10-29 Footwear having lace receiving strands
EP14806114.6A EP3091866B1 (de) 2014-01-08 2014-10-30 Schuhwerk mit litzen zur aufnahme von bändern
PCT/US2014/063087 WO2015105564A1 (en) 2014-01-08 2014-10-30 Footwear having lace receiving strands

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EP (2) EP3504999B1 (de)
CN (2) CN106061308B (de)
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BR (1) BR112016015957A2 (de)
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EP3091866A1 (de) 2016-11-16
EP3091866B1 (de) 2019-01-30
CN106061308B (zh) 2018-06-22
EP3504999A1 (de) 2019-07-03
BR112016015957A2 (pt) 2017-08-08
CN108497623A (zh) 2018-09-07
CN106061308A (zh) 2016-10-26
AU2014376275A1 (en) 2016-08-04
AU2014376275B2 (en) 2017-12-07
WO2015105564A1 (en) 2015-07-16
MX2016008981A (es) 2017-02-15
CN108497623B (zh) 2021-03-09
US20190037970A1 (en) 2019-02-07

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