CN106061308B - The footwear of rope are received with shoestring - Google Patents

Abstract

Article of footwear may include being configured to receive the vamp of foot and be fixedly attached to the footwear sole construction of the bottom part of vamp.Footwear sole construction may include the external component of ground-engaging and footwear may include the first rope, which is configured to define at least the first shoestring and receives ring and extend through the external component of footwear sole construction.

Description

The footwear of rope are received with shoestring

Cross reference to related applications

This application claims No. 61/924,958 U.S. Provisional Patent Applications of the Klug submitted on January 8th, 2014 et al. Priority, the complete disclosure of this application is incorporated herein by reference.In addition, this application involves _ _ _ _ _ _ _ _ _ _ _ _ _ it issues The Klug's of cloth et al. and entitled " Footwear Ground Engaging Members Having Concave The _ _ _ _ _ _ _ _ _ _ _ number United States Patent (USP) (No. 14/145,513 current American that on December 31st, 2013 submits of Portions " Patent application [attorney docket：51-3653]), the complete disclosure of this application is incorporated herein by reference.

Technical field

Present invention relates in general to article of footwear, and relate more particularly to be formed the construction for the rope that shoestring receives ring.

Background

The shoelaces acceptance components of footwear can suffer from significant load, particularly in sport footwear.Therefore, various structures For strengthening the lacing zone of footwear and shoelaces acceptance components itself.For example, in some cases, frenulum eyelet may include by The reinforcement buttonhole that metal or duroplasts are formed.In addition, the region that the vamp of article of footwear can be passed through in shoestring includes second Layer material.In some cases, shoestring receiving structure can extend downwardly along the side of footwear and can be fixed to sole knot Structure, to provide reinforcement for footwear and to provide stability for wearer.For example, in some cases, rope or line have been used to Ring is formed, these rings form shoelaces acceptance components.These rope or line can underfoot side, prolong between vamp and footwear sole construction It stretches, and thus can provide stirrup shape structure.Such line can provide reinforcement, and can allow footwear with minimum weight The rest part in face is constructed, while keep the strength and stability of footwear by lighter in weight and/or ventilative material.

It summarizes

It is desirable that, such shoestring is received into metastable structure of the line fixed to footwear.The disclosure is for existing Improvement in shoestring containment system, the improvement include fixing the setting that shoestring receives rope.

The disclosure is shaped as the configuration of the rope of shoestring receiving ring for arrangement.Rope can be configured to from a side of footwear Extend to another side.In some embodiments, rope can extend through the external component (footwear outer bottom) of footwear.At some In embodiment, external component can be formed by relatively hard plastic material, such as in the footwear equipped with anti-slip part (cleat) In, and thus, external component can provide the structure of relative stiffness to anchor rope wherein.

In an aspect, the disclosure is directed to a kind of article of footwear, which includes the vamp for being configured to receive foot With the footwear sole construction of bottom part for being fixedly attached to vamp.Footwear sole construction may include the external component and footwear of ground-engaging Class may include the first rope, which is configured to define at least the first shoestring and receives ring and extend through the outside of footwear sole construction Component.

In the article of footwear, the first rope forms the first shoestring on the medial surface of article of footwear and receives ring and in footwear The second shoestring is formed on the lateral surface of article and receives ring.

In the article of footwear, the first rope forms third shoestring on the medial surface of article of footwear and receives ring and in footwear The 4th shoestring is formed on the lateral surface of article and receives ring.

In the article of footwear, the first rope includes first end and the second end；And

Wherein first rope is included in the knot at first end, and knot is configured to the external structure for preventing the first rope across ground-engaging Part is pulled.

In the article of footwear, at least part of the first rope is attached to a part for vamp.

In the article of footwear, the first rope is attached to vamp using stitching.

In the article of footwear, neighbouring first shoestring of the first rope receives ring to be attached to vamp using stitching.

In the article of footwear, the first rope includes first end and the second end；

Wherein, the first end of the first rope and the second end overlap each other in overlapping region；And

Wherein, the first end of the first rope and the second end are fixed to each other in overlapping region using stitching.

In the article of footwear, overlapping region forms at least part that the first shoestring receives ring.

It in the article of footwear, further includes splayed rope and arranges, splayed rope arrangement has one or more ropes and a pair Rope, the first shoestring of neighbouring footwear back of the body region arrangement that one or more rope is formed in the first side of vamp receive ring, and a pair of Rope receives ring to extend downwardly into footwear sole construction along the first side of vamp from the first shoestring, across the ground-engaging of footwear sole construction External component, along vamp second side upwards and diagonally across the footwear of vamp the back of the body region, first along vamp Side extends downwardly, and is upwardly extended and in the second side of vamp below vamp and along the second side of vamp Neighbouring footwear back of the body region, which is formed, receives ring with the first shoestring diagonally opposite the second shoestring receives ring.

In the article of footwear, the first rope extends through the footwear central region of the external component of ground-engaging.

In the article of footwear, the first rope extends through the footwear front area of the external component of ground-engaging.

In another aspect, the disclosure is directed to a kind of article of footwear, which includes the footwear for being configured to receive foot Face and the footwear sole construction of bottom part for being fixedly attached to vamp.Footwear sole construction may include the external component of ground-engaging, and And footwear may include being configured to define the first rope that multiple shoestrings receive ring, multiple shoestring receives ring to include at least in vamp The first shoestring in first side receives ring and the second shoestring in the second side of vamp to receive ring.First rope can be from footwear The first side in face passes through the external component of footwear sole construction to extend to the second side of vamp.

In the article of footwear, the third shoestring that multiple shoestrings receive ring also to include in the first side of article of footwear connects It receives ring and the 4th shoestring in the second side of article of footwear receives ring.

In the article of footwear, the first rope includes first end and the second end；And

Wherein first rope is included in the first knot at first end, and the first knot is configured to prevent the first rope across ground-engaging External component be pulled.

In the article of footwear, the first rope is included in the second knot at the second end of the first rope, and the second knot is configured to prevent Only the external component of the first rope across ground-engaging is pulled.

In the article of footwear, the first rope extends through the external component of ground-engaging in two or more positions.

In the article of footwear, at least part of the first rope is attached to a part for vamp.

In another aspect, the disclosure is directed to a kind of article of footwear, which includes the footwear for being configured to receive foot Face and the footwear sole construction of bottom part for being fixedly attached to vamp.Footwear may include the external component and first of ground-engaging Rope, first rope are configured to form the first shoestring receiving ring on the medial surface of vamp and form second on the outside of vamp Shoestring receives ring, and the first rope extends to the outside of vamp between vamp and the external component of footwear sole construction from the medial surface of vamp Face.In addition, footwear may include the second rope, second rope be configured to be formed on the medial surface of vamp third shoestring receive ring and The 4th shoestring is formed on the lateral surface of vamp and receives ring, the second rope passes through the external component of footwear sole construction from the medial surface of vamp Extend to the lateral surface of vamp.

In the article of footwear, the second rope includes first end and the second end；And

Wherein second rope is included in the knot at first end, which causes to prevent the second rope across the outside of ground-engaging Component is pulled.

In the article of footwear, the second rope is included in the second knot at the second end of the second rope, and the second knot is configured to prevent Only the external component of the second rope across ground-engaging is pulled.

In the article of footwear, the second rope extends through the external component of ground-engaging in two or more positions.

In the article of footwear, at least part of the second rope is attached to a part for vamp.

In the article of footwear, the second rope is attached to vamp using stitching.

In the article of footwear, neighbouring first shoestring of the first rope receives ring to be attached to vamp using stitching.

After following attached drawing and detailed description is consulted, other systems of the invention, method, feature and advantage for Those of ordinary skill in the art will be apparent or will be apparent.It is intended that all such other systems, method, Feature and advantage include protecting in this description and this general introduction, within the scope of the invention and by following claims.

Brief description

With reference to following attached drawing and description, the present invention may be better understood.Attached drawing is schematical, and therefore, figure In component be not drawn necessarily to scale, but focus on diagram the principle of the present invention on.In addition, in the accompanying drawings, it is identical Reference number represent corresponding part through different views.

Fig. 1 is the schematic diagram of example footwear, which has the ground-engaging with ground-engaging component External component.

Fig. 2 is the schematic diagram of the lower perspective view of the external component of exemplary ground-engaging.

Fig. 3 is the schematic diagram of the lower perspective view of the footwear front area of external component shown in Fig. 2.

Fig. 4 is the schematic diagram of the enlarged drawing of the component of exemplary ground-engaging.

Fig. 5 is the schematic diagram of the side view of the component of exemplary ground-engaging.

Fig. 6 is the perspective view of the component of the ground-engaging shown in Fig. 5 and the schematic diagram of cross-sectional view.

Fig. 7 is the schematic diagram of the cross-sectional view for the optional configuration for illustrating the component for ground-engaging.

Fig. 8 is the schematic diagram of the cross-sectional view for another the optional configuration for illustrating the component for ground-engaging.

Fig. 9 is the schematic diagram of the bottom view of the component of exemplary ground-engaging.

Figure 10 is the perspective view of the component of the ground-engaging shown in Fig. 9 and the schematic diagram of multiple cross-sectional views.

Figure 11 is the schematic diagram of the bottom view of the component of another exemplary ground-engaging.

Figure 12 is the perspective view of the component of the ground-engaging shown in Figure 11 and the schematic diagram of multiple cross-sectional views.

Figure 13 is showing for the bottom perspective view of the arrangement of the component of the ground-engaging in the heel region of article of footwear It is intended to.

Figure 14 is the schematic diagram of another bottom perspective view of the arrangement of the component of the ground-engaging shown in Figure 13.

Figure 15 is showing for the bottom view of the footwear front area of the article of footwear of the longitudinal overlap for the component for showing ground-engaging It is intended to.

Figure 16 is the schematic diagram of the partial lateral face view of the article of footwear shown in Figure 15.

Figure 17 is the schematic diagram for including being formed the partial side view of the article of footwear for the rope that shoestring receives ring.

Figure 18 is the schematic diagram for including being formed the lateral side view of the article of footwear for multiple ropes that shoestring receives ring.

Figure 19 is the schematic diagram of the vertical view of the article of footwear shown in Figure 18.

Figure 20 is the schematic diagram of the medial side view of the article of footwear shown in Figure 18.

Figure 21 is the schematic diagram of the exploded view of the article of footwear shown in Figure 18.

Figure 22 is the schematic diagram of the exploded view of the layer of the article of footwear shown in Figure 18.

Figure 23 is the schematic diagram of the bottom view of the article of footwear shown in Figure 18.

Figure 24 is the schematic diagram of the bottom view of the heel region of the article of footwear shown in Figure 18.

Figure 25 is the schematic diagram for passing through arrangement of the rope of the article of footwear shown in Figure 18.

Figure 26 be the rope of the article of footwear shown in Figure 18 another pass through arrangement schematic diagram.

Figure 27 is the schematic diagram for including being formed the bottom view of the article of footwear for the rope that shoestring receives ring.

Figure 28 is the schematic diagram for including being formed another bottom view of the article of footwear for the rope that shoestring receives ring.

Figure 29 is the schematic diagram for the vertical view that arrangement is passed through in the middle part of the footwear for showing the article of footwear shown in Figure 27.

Figure 30 is to show that the footwear forepart of the article of footwear shown in Figure 27 passes through the schematic diagram of the vertical view of arrangement.

It is described in detail

Following discussion and attached drawing discloses the footwear sole construction for article of footwear.It is relevant with footwear disclosed herein Concept can be adapted for various athletic footwear styles, including such as Association football footwear, spike, olive sneakers and golf shoes. Therefore, concepts disclosed herein is suitable for a variety of footwear types.

For the sake of consistent and is convenient, directionality is employed through the detailed description corresponding to the embodiment illustrated Adjective.Such as through the detailed description and in the claims, used term " longitudinal direction " refers to extend the length of footwear sole construction Direction, i.e., extend to heel portion from the footwear front part of sole.Term is used to refer to " forward " the big of the toe direction of foot Direction and term is caused to be used to refer to opposite direction " backward ", i.e., the heel of foot towards direction.

Such as through this detailed description and in the claims, used term " horizontal direction " refers to extend the width of sole The direction (side-to-side direction) of the side of degree to side.In other words, horizontal direction can be in article of footwear Extend between side and lateral surface, wherein the lateral surface of article of footwear deviates from the surface of another foot, and medial surface is towards another The surface of one foot.

Such as through this detailed description and in the claims, used term " horizontal axis " refers to orient in a lateral direction Axis.

As referred to be substantially parallel to ground " horizontal " through this detailed description and used term in the claims Any direction in face, including longitudinal direction, horizontal direction and all directions between the two.Similarly, such as in this theory Term " side " used in bright book and claim is finger substantially in face of lateral direction, interior direction, forwards To and/or backward directions rather than any part in direction upward or downward.

As referred to be generally perpendicular to horizontal stroke " vertical " through this detailed description and used term in the claims To direction and the direction of longitudinal direction.For example, in the case where sole is lain on ground surface, vertical direction can be from ground surface It upwardly extends.It will be appreciated that each in these directionality adjectives can be adapted for the single component of sole.Term " upward " refers to the vertical direction advanced far from ground, and term " downward " refers to the vertical direction advanced towards ground.Equally, Term " top ", " top " and other similar terms refer to the generally farthest portion from the ground in the vertical direction of object Point, and term " bottom ", " lower part " and other similar terms refer to object generally in the vertical direction from the ground most Near part.

For purposes of this disclosure, aforementioned directivity term should refer to when being used to refer to for article of footwear positioned at stand up position When article of footwear, wherein sole is towards ground, that is, as when being worn by the wearer on substantially horizontal surface that stands The article of footwear of used time will be as positioning.

In addition, for purposes of this disclosure, term " being regularly attached " should refer to so that component can not detach (example easily Such as, in the case where not destroying one or two in component) two components linking of mode.What is be regularly attached is exemplary Form can be included with permanent adhesive, rivet, suture, nail, u staples, welding or other thermals, and/or other companies Knot technology links.In addition, two components can be for example in a molding process by means of integrally formed next " being regularly attached ".

The embodiment that Fig. 1 depicts article of footwear 100 may include footwear sole construction 105 and be configured to receive the footwear of foot Face 110.Footwear sole construction 105 can be fixedly attached to the bottom part of vamp 110.For the purpose of reference, as shown in fig. 1, Footwear 100 can be divided into three regions substantially, including footwear front area 130, footwear central region 135 and heel region 140. Footwear front area 130 generally comprises the part in the joint for corresponding to toe and connecting metatarsal and phalanx of footwear 100.Footwear middle region Domain 135 generally comprises the part of the arch area corresponding to foot of footwear 100.After heel region 140 corresponds roughly to foot Portion part, including calcaneum.Footwear front area 130, footwear central region 135 and heel region 140 are not intended to divide footwear 100 Precise region.But footwear front area 130, footwear central region 135 and heel region 140 are intended to indicate that footwear 100 substantially Opposite region, to provide help for following discussion.

Because both footwear sole construction 105 and vamp 110 are all generally across the whole length of footwear 100, term footwear Front area 130, footwear central region 135 and heel region 140 are not only generally applicable to footwear 100, but also be suitable for Footwear sole construction 105 and vamp 110 and the discrete component of footwear sole construction 105 and vamp 110.Footwear 100 can be by any suitable Material formed.In some configurations, disclosed footwear 100 can be used Lyden et al. promulgation January 20 in 1998 the One or more materials disclosed in 5,709, No. 954 United States Patent (USP)s, the complete disclosure of the patent are incorporated by reference into this Text.

Vamp 110 may include one or more material elements (for example, textile, foam, leather and synthetic leather), these Material elements can be sewn, adhesively combine, mould or shape in other ways to define the inner cavity for being configured to receive foot.Material Material element can be chosen and be arranged to selectively assign such as durability, gas permeability, wearability, flexibility and comfort it The performance of class.Vamp 110 can optionally realize a variety of other configurations, material and/or close mechanism any one of.

Footwear sole construction 105 can have the configuration extended between vamp 110 and ground and can be with any suitable side Formula is fixed to vamp 110.For example, footwear sole construction 105 can be attached, be sutured by adhesive, welded or any other suitable side Formula is fixed to vamp 110.Footwear sole construction 105 may include weakening ground reaction force (i.e. in vertical load and horizontal load Period buffer and stable pin) setting.In addition, footwear sole construction 105 can be configured to provide attachment frictional force, assign stability, And/or the movement of the diversified foot of limitation, such as inward turning, outward turning and/or other movements.

The earth's surface of one or more types that the configuration of footwear sole construction 105 can use on it according to footwear sole construction 105 Face can significantly change.For example, disclosed concept can be applicable to be configured to make in surface indoors or outdoor face Footwear.The configuration of footwear sole construction 105 can be expected according to footwear 100 surface used on it property and condition and become Change.For example, footwear sole construction 105 can be harder or softer according to surface to change.In addition, footwear sole construction 105 can be with It adapts to use under conditions of moist or dry.

Footwear sole construction 105 may include multiple components, and multiple component individually and/or can be carried jointly for footwear 100 For many attributes, such as support, rigidity, flexibility, stability, resiliency, comfort, the weight mitigated, attachment frictional force and/or Other attributes.For example, in some embodiments, footwear sole construction 105 may include for example weakening power, the movement for influencing foot and/or Assign incompressible plate, adjuster and/or the other elements of stability.It is in addition, though various types of equipped with anti-slip part Footwear can be not provided with midsole, but in some embodiments, footwear sole construction 105 can also include being externally arranged structure Midsole (not shown) between part 120 and vamp 110.Such midsole may include buffer component, reinforcement structure, branch Support structure or other feature.

Footwear sole construction may include according to the article of footwear of the disclosure, which includes being fixedly attached to the bottom of vamp The external component of the ground-engaging of portion part.External component may include in any one in various surfaces and in various conditions It is any under the conditions of the feature of attachment frictional force and stability is provided.External component may include substrate and be extended downwardly from substrate One or more ground-engagings component.Substrate may include generally flat element, and the generally flat element Support feet is simultaneously used as generally rigid platform, and the component of ground-engaging can extend from the rigid platfor.

As shown in fig. 1, footwear sole construction 105 may include contacting the external component 120 on ground.External component 120 may include Substrate 126.Substrate 126 can be generally flat, panel-like platform.Substrate 126 may include various solutions although relatively flat The profile on learning is cutd open, such as with respect to longitudinal shape of dome-shaped, the heel portion higher than footwear front part, higher arch support Region and other features anatomically.In addition, substrate 126 may include being exposed to the bottom surface 125 on ground.Bottom table Face 125 can be general planar, but can have the various profiles for providing rigidity, intensity and/or attachment frictional force.Below more Illustrative such structure is discussed in detail.

External component 120 may include being configured to provide the various features of attachment frictional force.For example, in some embodiments In, external component 120 may include the component 200 of the one or more ground-engagings extended from outer surface 125, such as institute in Fig. 1 Show.

The type of activity that can be constructed for the material and configuration of external component according to footwear 100 for it is selected It selects.External component can be formed by suitable material, for realizing desired attribute of performance.For example, external component can be by Any suitable polymer, rubber, composite material and/or metal alloy compositions are formed.Illustrative such material can wrap Include thermoplasticity and heat-curable urethane (TPU), polyester, nylon, the nylon of glass-filled, polyether block amide, polyurethane and third The mixture of alkene nitrile butadiene styrene, carbon fiber, poly(p-phenylene terephthalamide) (para-aramid fiber, for example,), titanium alloy and/or aluminium alloy.In some embodiments, the part of external component or external component can be with It is formed by the composite material of such as two or more of carbon fiber and poly(p-phenylene terephthalamide) material.In some implementations In scheme, both materials can be externally arranged in the different parts of component.Alternatively, or in addition, carbon fiber and poly- pair Phenylene terepthalamide's fiber can be woven together in same fabric, which can be laminated to form external structure Part.Other suitable materials (material for including future exploitation) will be confirmed by those skilled in the art.

Different structural behaviours may be needed for the different aspect of external component.Therefore, structural configuration can To be determined so that though common material be used for external component all parts, but it is different partially due to component not With shapes and sizes or more rigid or more flexible.For example, the heel region of substrate and footwear central region can be with The reinforcement feature of such as flank is formed by thicker material and/or can be included, so that these parts for external component provide Rigidity, however, the region corresponding with the plantar ball of foot of the footwear front area of substrate, special grade slab can be by relatively thin material It is formed, to provide flexibility for footwear front area.Larger flexibility can make foot run or go in footwear front area During walking can buckling, and external component can also be enable to meet the out-of-flatness on surface naturally, this can be such Other attachment frictional force and stability are provided on surface.In addition, the component of ground-engaging could be formed with thicker structure with Rigidity and intensity are provided.

External component can be formed by any suitable technique.For example, in some embodiments, external component can To be formed by moulding.In addition, in some embodiments, then the various elements of external component could be separately formed and Link in subsequent technique.Those of ordinary skill in the art will be recognized that make the external component discussed in the disclosure Other suitable techniques.

In some embodiments, other elements of substrate, the component of ground-engaging and external component can be integrally It is formed.For example, in some embodiments, the entirety of external component can be formed by single material, to form external component All parts.In such embodiments, external component can be together in single molding process for example with injection-molded It is primary to be formed.

In other embodiments, the different parts of external component can be formed from different materials.For example, such as carbon The more rigid material of fiber can use in the heel region of substrate and/or footwear central region, however such as thin poly- The more flexible material of urethane can be used to form the footwear front area of substrate.Additionally, it may be desirable to it is adopted for substrate With the more rigid and/or harder material of such as carbon fiber and/or polyurethane, used for the component of ground-engaging compared with Soft and more flexible material, such as relatively hard rubber.

Therefore, in some embodiments, external component can be by multiple molding process for example using co-molded work Skill is formed.For example, substrate can be pre-molded, and be then inserted into external component mold, the component of ground-engaging Material can be injected into the external component mold with the component for forming ground-engaging or the part of the component of ground-engaging.At it In its embodiment, the component of ground-engaging can be pre-molded, and substrate can be with the component of preformed ground-engaging It is co-molded.In addition, other components such as reinforcing element of substrate can be formed from different materials.

In some embodiments, the component of substrate and ground-engaging can individually be made and then be engaged with each other (for example, by mechanical connector, passing through cement or adhesive etc.).In some embodiments, anti-slip part or outside portion Part can be integrally-formed as whole, one piece construction (for example, passing through molding process).

In some embodiments, for example, by selectivity laser sintering technology, stereolithography techniques or its Its 3 D-printing or quick manufacture adding type manufacturing technology, at least some parts of footwear sole construction are (for example, outsole members, appoint Selection of land includes the structure of rear heel support element or other heel counter types) it can be fixed to one another or be formed as whole together , one piece construction.The addition manufacturing technologies of these types allow anti-slip part, footwear outer bottom substrate, basal body structure, supporting member, Heel counter and/or rear heel support element are built as overall structure.

The configuration of footwear sole construction 105 can be according to one or more types that footwear sole construction 105 can use on it Ground surface and significantly change.Therefore, external component 120 can be configured in such as natural sod (for example, meadow), Artificial grass Skin, soil, snowfield various surfaces on attachment frictional force is provided.Footwear sole construction 105 can also be expected on it according to footwear 100 Property and the condition variation on the surface used.For example, footwear sole construction 105 can be harder or softer according to surface and become Change.In addition, footwear sole construction 105 is adapted to use under conditions of moist or dry.In addition, including for footwear sole construction 105 is outer The configuration of the attachment frictional force pattern of portion's component 120 can be expected the type of the activity used (for example, running according to footwear 100 Step, football, baseball, Rugby and other activities) and significant changes.

In some embodiments, footwear sole construction 105 can be constructed for especially special surface and/or condition.Example Such as, in some embodiments, footwear sole construction 105 may include that, for the sole of Association football footwear, this is used for Association football footwear Sole structure is into offer in wet conditions in attachment frictional forces and stability soft, on natural grass surfaces.At some in this way Embodiment in, footwear sole construction 105 may include the component of for example a small amount of ground-engaging, wherein the component attack of ground-engaging Property shape (aggressively shaped) and with relatively large size.On the contrary, footwear sole construction 105 is optional Embodiment can be configured to provide the attachment frictional force on the surface of relatively solid, artificial turf in dry conditions And stability.In some such embodiments, footwear sole construction 105 may include the component of for example a large amount of ground-engaging, this The component of a little ground-engagings can be relatively small in size, and can have less aggressive shape.Although needle Provide quantity, the size and shape of the component of ground-engaging to exemplary purpose, but other structures parameter can change with Just make the attachment frictional force and stability of footwear adaptation on a variety of surfaces and/or under various conditions.In addition such parameter Can include such as placement of component of the use of accessory attachment traction elements, ground-engaging, the component of ground-engaging and/or The relative softness generally or hardness of footwear sole construction 105, the relative flexibility of the part of footwear sole construction 105 and other Such parameter.

In some embodiments, footwear sole construction 105 can be configured to general.For example, footwear sole construction 105 can construct Into providing attachment frictional force and stability on the various surfaces with a series of properties and/or under various conditions.For example, footwear The general embodiment of bottom structure 105 is with may include the engagement with the moderate quatity of median size and the aggressive shape of appropriateness The component in face.

In addition to surface nature and condition, footwear sole construction 105 can also be according to the body spy of the expected sportsman for wearing footwear Property construct and/or constructed according to the type of activity for being expected when wearing footwear to carry out.Rugby sportsman, depending on its load The position appointed, can have extensive physical characteristics and technical ability.For example, forward team member may be relatively heavy, relatively slow, but also Stronger more of sportsman than beating other positions.When the forward with opposite engages member, forward may be in footwear sole construction to member Upper to place larger load, these larger load may maintain longer time, for example, reaching one second to two seconds.

In contrast, technology position of Player, such as external member can be able to be relatively light weight, but faster.Skillfully The position of sportsman can be placed on footwear sole construction with transient load by more fulminant via dash, incision (cut) and jump On, and thus, these load can also be made to be kept for the only relatively short duration (for example, in a flash).Centre half back sportsman can To have the physical trait of the combination of the physical trait for being demonstrated by forward team member and external member and ability and ability.After in although Speed can be possessed with agility and be moved in open place as external member by defending sportsman, but centre half back sportsman may be used also To be larger, heavier and more powerful, and other balls are engaged in obstruction sportsman/blocking as forward team member Member.

In view of different requirements, forward team member and external member can select footwear sole construction, it is most suitable for the sportsman of each type Footwear sole construction can differently construct.For example, the footwear sole construction of the footwear of forward team member can be configured to it is more rigid and compared with Durable, and be also configured to distribute load across the sole of footwear.In contrast, the footwear of external member can have such sole knot Structure, the footwear sole construction be configured to more selectively flexible and rigidity at different regions light-weight, in foot, Pass through the component quick penetration ground of ground-engaging and abjection ground and transverse response ability.In addition, it is configured to by centre half back The footwear sole construction that sportsman uses can be it is more general, have intensity, rigidity, stability, light weight, orientation attachment frictional force with And the compromise of other characteristics.

Other types of activity may propose the low structure of the footwear of footwear similar and/or different demand.For example, English foot Ball sportsman may propose the demand similar to external member, i.e., the load based on speed and agility.Thus, there is light weight Amount, responding ability, quick penetrated surface are with abjection and in various directions and the into attachment of various ground contact angles rubs It may be advantageous for the footwear sole construction of wiping power.In other movements, demand may be more prominent.For example, it is configured to by only linearly The footwear sole construction that the athlete run with high speed and acceleration uses can be configured to light-weight, straight line attachment Frictional force and quick surface penetrability and abjection property.

In some embodiments, disclosed footwear may be configured to the activity for being related to multidirectional agility.Example Such as, disclosed footwear are configured to agility training and evaluation and test.In some embodiments, disclosed footwear can It is configured to agility test, speed and the agility evaluation and test of such as NFL rising star training camp or other select-elites or pre-games.

Agility test is related to the short time limit sexuality of sportsman's completion so as to their competitive ability of test.Compared to The activity of 40 yards of spurt of speed and acceleration on straight line is such as tested, agility test assessment sportsman accelerates, slows down With change nyctitropic ability.In addition, the not only ability of forward movement but also transverse shifting of agility test assessment sportsman.

The ability of the displaying agility of sportsman depends on the ground surface carried out on it in the footwear of sportsman and movement Between multiple directions attachment frictional force.If attachment frictional force lacks and sportsman slides during direction is changed, then The change in direction can not carry out as soon as possible.By providing attachment frictional force in a plurality of directions, it is configured to the footwear for agility Can enable sportsman that them is made potential of racing to reach peak because attachment frictional force will not be limiting factor or ratio not The footwear being constructed so as to will be limited less.

Attached drawing depicts the various embodiments of the footwear equipped with anti-slip part, which, which has, is suitable for The footwear sole construction of the attachment frictional force of multiple directions on natural and/or artificial grass.Footwear 100 as depicted can fit Together in the various activities on natural and/or artificial grass, such as such as agility/speed training and contest and baseball, English Formula football, American football and other such work that attachment frictional force and earth-grasping force can be significantly increased by anti-slip part component Dynamic other movements.In addition, the various features (and/or variant of these features) of disclosed footwear sole construction can it is various its Implement in the footwear of its type.

The component of the ground-engaging of illustrative disclosure, which can have, provides increased attachment frictional force, directionality attachment friction The one or more features of power, ground penetration and/or ground abjection property.Such feature may include the structure of such as ground-engaging The shape of part, size, the positioning on external component and ground-engaging component orientation.

The component of ground-engaging can use at any suitable position of external component.In some embodiments, have The component for having the ground-engaging of specific shape and configuration can be externally arranged the corresponding with each anatomic part of foot of component At region.For example, in some cases, the component of one or more ground-engagings can be arranged in first with the foot of wearer At the corresponding position of metatarsal head region and/or it is arranged in the region corresponding with the distal portions of ossa suffraginis of foot.Sportsman can In certain movements, its most weight is placed on these regions of its foot during such as cutting in a lateral direction.

In some embodiments, the component of ground-engaging can have generally triangular shape.For example, engagement ground The component in face can have the triangular cross-sectional shape generally in substantially horizontal plane.In some embodiments In, the component of ground-engaging can be in the generally entire height of the component of ground-engaging with generally triangular transversal Face shape.Therefore, the component of ground-engaging can extend to the free end for including general planar tip end surface from substrate, should General planar tip end surface also has generally triangular shape.That is, the circumference of tip end surface can have generally The shape of triangle.

Generally the component of triangle ground-engaging can provide asymmetric attachment frictional force, and can thus be oriented More attachment frictional force is provided in some directions and less attachment friction is provided in other directions.In addition, three At least two in angle between angular side must be acute angle.As apex in the component of triangle ground-engaging Acute angle can provide the edge that may be configured to provide increased attachment frictional force.

It should be noted that although the anti-slip part of general triangular shape is described in detail herein, others are anti-skidding Portion's configuration is possible, including for example with general square shape, cross section shape The anti-slip part of shape.Such anti-slip part still can have there are one edge, which has the periphery edge back to sole The vertical recessed and/or horizontal recessed outer surface of orientation.In some embodiments, the region of single footwear and/or footwear can be with Component with ground-engaging, the component of these ground-engagings have different whole size, shape and/or construction.

It is recessed in one or more orientation to be formed as by the side wall for the component for making ground-engaging, can be further increased The attachment frictional force provided by the component of triangle ground-engaging.For example, side wall can be horizontal recessed, vertical recessed or water Plano-concave and vertical recessed the two.In addition, the tip end surface of the component of ground-engaging can have recessed edge.Ground-engaging The concavity face of component sidewall the structure of " spoon " or " scoop " type is provided with help to provide for push away it is firm, do not slide The base portion of shifting.The component of ground-engaging can be arranged to during the competitive sport of selection by making recessed structure in specific direction It is upper to orient to provide increased attachment frictional force.

In addition, the concave surface of the component of ground-engaging can reduce weight, but remove additional material.In addition, with non- The component of recessed ground-engaging is compared, and concave surface can improve ground penetration by the way that the element cross-section of ground-engaging is made to narrow And/or ground abjection property.

In addition to attachment frictional force, ground penetration and ground abjection property is increased, concave surface can form generally triangle Ground-engaging component, wherein at the one or more summits of triangle have lug boss (lobe).Lug boss can be with Increased attachment frictional force is provided.In addition, because lug boss can be elongated, the attachment frictional force provided can be Generally it is directionality.That is, lug boss provides maximum attachment frictional force on the direction perpendicular to its extending direction.Cause And the orientation of each lug boss can be chosen so as in the required region of the external component of ground-engaging in required direction Upper offer attachment frictional force.It therefore, can be specifically on longitudinal direction (forward-backward) direction or laterally (outboard vs inboard) direction Or other frictional force is provided into any angle between vertical and horizontal.

By the way that one or more lug bosses is made generally diametrically (or with other angles) to extend from the component of ground-engaging, The torsion attachment frictional force of component around ground-engaging can be provided.It is required to reverse attachment frictional force and can depend on application Or non-required characteristic.For example, for certain activities, it may be beneficial to have larger freedom of motion.Therefore, it is right For such activity, the size of reduction and/or the lug boss of quantity can be used as pivoting during activity in foot It is used in the region of point.For other activities, it may be the phase to provide increased torsion attachment frictional force to improve performance It hopes.For example, in order to which batter is enable to generate more torques by his body of twisting during brandishing, in certain of foot There is provided increased torsion attachment frictional force for spike at part a bit, it may be advantageous.

In some cases, increased torsion attachment frictional force on a foot is provided, and is provided on another foot It may be advantageous for the torsion attachment frictional force of reduction.For example, when baseball player may behind foot (far from pitcher) one Needed at a or multiple portions additional torsion attachment frictional force allow it to progress it is stronger when brandishing, he may be at it The torsion attachment frictional force of decrement is needed at one or more parts in front foot (close to pitcher) so that bigger movement oneself It is possibly realized by degree.It is also likely to be correct on the contrary according to the part of in question foot.That is, for one of the rear foot or Multiple portions provide the torsion attachment frictional force for reducing quantity and partly provide increased amount for the one or more of front foot It may be desired to reverse attachment frictional force.Therefore, asymmetric external component is provided to left foot and right crus of diaphragm.That is, outside left foot Portion's component can be the non-mirror image of right crus of diaphragm external component.

Torsion attachment frictional force system will be that beneficial any kind of activity may for wherein generating torque with body It is advantageous.For example, when changing direction, by the way that increased torque is enable to be generated that increased agility can be provided.Separately Outside, other illustrative such activities can include asymmetric movement, such as throwing, brandish, play football and its It is moved.Therefore, can implement to reverse the exemplary application of attachment frictional force system can include for example, golf, stick Ball movement (as described above for batting and pitching), the American football (throwing carried out by the quarter back of rugby Ball), javelin and Association football (playing football).

Foregoing teachings summarise the multiple parameters of the structural configuration in relation to lug boss, which can be manipulated to The specific location of the sole of article of footwear provides required ground penetration, ground abjection property and traction characteristics. Therefore, shape, size, material, layout, orientation and the other technical parameters of each individually lug boss (specification) required performance characteristics can be selected to achieve.In disclosed embodiment, anti-slip part system This personal settings of multiple components be embodied in asymmetric and irregular lug boss configuration.It is it should be noted that convex The component of the ground-engaging in the embodiment of same sole structure of shape, size, orientation and other parameters in the portion of rising it In can be inconsistent.In addition, it should also be noted that such variation can also be in the component about common ground-engaging Lug boss among exist.

As discussed above, the size of lug boss can to ground penetration that lug boss is provided, ground abjection property with And the measurer of attachment frictional force has significant impact.Therefore, the size of each lug boss can be according to paying attention to as discussed above Item selects, to realize required performance characteristics.

It can be controlled in ground penetration, ground abjection property and/or attachment frictional force by changing the shape of lug boss While, the direction that attachment frictional force can be provided can also be controlled.Each lug boss can provide in a plurality of directions Attachment frictional force.However, due to elongate structure, the direction of maximum adhesion frictional force that lug boss is provided can be generallyperpendicular In extended direction.

In some embodiments, one or more lug bosses can be from the approximate center portion part of the component of ground-engaging Generally radially extend.In some embodiments, one or more lug bosses can be on generally non-radial direction Extension.In some embodiments, all lug bosses of the component of adjacent same ground-engaging can be from the component of ground-engaging Radially.In some embodiments, all lug bosses of the component of adjacent same ground-engaging can be generally Non-radial side upwardly extends.In addition, it in some embodiments, can radially be abutted with the lug boss of non-radial orientation same The component of ground-engaging.

As shown in Figure 2, the component 200 of the ground-engaging of footwear 100 may include according to the component of each ground-engaging The component of multiple generally triangular ground-engagings that position is arranged in the orientation of selection.In some embodiments, it is adjacent The component of the ground-engaging of the periphery edge arrangement of the external component of nearly footwear sole construction can construct directive attachment friction Power feature, directionality traction characteristics, which provide, resists the sliding on the direction back to the periphery edge of external component Attachment frictional force.When the periphery edge of footwear outsoles contacts ground, with larger power contact ground or in footwear outer bottom first When other parts are not in contact with contacting ground in the case of ground, the attachment frictional force that is provided at the periphery edge usually will be Aspect of performance provides maximum benefit, because of not only vertical load but also horizontal load is in neighboring area in these cases Maximum.For example, when foot on medial surface and/or with maximum power first when colliding ground, it is usually because wearer towards Interior direction is cut or attempts to slow down the movement on horizontal direction.In both cases, it needs to resist towards horizontal direction The attachment frictional force of sliding.Therefore, footwear, which can be provided with to have on the medial surface of footwear outer bottom, facing away from inside edge orientation Concave side ground-engaging component.Based on similar reason, footwear can be provided on outer side on the outside of facing away from The component of the ground-engaging of edge-oriented concave side.The component on such periphery ground can be arranged on any area of foot In domain, including forefoot region, foot stage casing region and heel area.In addition, above for the attachment friction at the periphery of sole Power discusses that principle is suitable for the rear edge of medial surface, lateral surface, the forward edge in toe cap region and heel area.

In some embodiments, all or substantially all of engagements circumferentially positioned on external component The component in face can be configured with the concave side that facing away from periphery edge orientation.For example, in some embodiments, along medial surface The component of all or substantially all of ground-engagings of adjacent perimeter edge arrangement, which can have, facing away from periphery edge, example Such as, towards the concave side wall in substantially superolateral direction.Similarly, along all or big of lateral surface adjacent perimeter edge arrangement The component of all ground-engagings, which can have, on body facing away from periphery edge, for example, towards the recessed of the generally direction of inside Side wall.In some cases, the component of the ground-engaging of disposed inboard and both component of ground-engaging of outside arrangement can be with It constructs in this way.The component of ground-engaging for all or substantially all of disposed inboard and/or all or generally institute The concave side wall that the component offer of the ground-engaging of some outside arrangements facing away from periphery edge can make above for concave side wall The benefit that characteristic and the attachment frictional force provided on medial-lateral (that is, side to side) direction are discussed maximizes.That is, in this way Configuration can provide increased performance in terms of the attachment frictional force for supporting lateral agility.

In some embodiments, it is multiple to may include that the periphery edge 150 of neighbouring external component 120 is arranged for footwear 100 The component of the ground-engaging on periphery.In some embodiments, before the component of the ground-engaging on such periphery can be located at footwear In portion region 130.In some embodiments, the component of the ground-engaging on such periphery can include being located at heel region The component of the ground-engaging on the periphery in 140.In some embodiments, footwear 100 can include more or less as needed Ground-engaging component with provide be suitable for needed for purposes performance characteristics.

As shown in Figure 2, footwear 100 may include the lateral surface 155 adjacent perimeter edge 150 along external component 120 The component 201 of the ground-engaging of first footwear front circumference.Footwear 100 can also include along 155 adjacent perimeter edge of lateral surface The component 203 of the component 202 of the ground-engaging of 150 the second footwear front circumference and the ground-engaging of third footwear front circumference.Separately Outside, footwear 100 can also include the 4th footwear forepart arranged along the 160 adjacent perimeter edge 150 of medial surface of external component 120 The component 204 of the ground-engaging on periphery, the ground-engaging of the 5th footwear front circumference 205 and the 6th footwear front circumference of component connect Close the component 206 on ground.

The component 201 of the ground-engaging of first footwear front circumference may include that facing away from the orientation of periphery edge 150 first is recessed Side wall 301.Therefore, because the 201 adjacent lateral side face 155 of component of the ground-engaging of the first footwear front circumference is arranged, so first Concave side wall 301 can be oriented towards lateral direction.As described in more detail below, side wall can be in one or more orientation Recessed.For example, side wall can be recessed in substantially horizontal plane, in generally vertical plane, and tip end surface Edge can be recessed on the horizontal level.

The component 202 of the ground-engaging of second footwear front circumference may include that facing away from the orientation of periphery edge 150 second is recessed Side wall 302.In addition, the component 203 of the ground-engaging of third footwear front circumference may include facing away from the of the orientation of periphery edge 150 Three concave side walls 303.

In some embodiments, the component 204 of the ground-engaging of the 4th footwear front circumference may include facing away from peripheral edge The 4th concave side wall 304 that edge 150 orients.Because the component 204 of the ground-engaging of the 4th footwear front circumference is adjacent to external component 120 Medial surface 160 arrange, so the 4th concave side wall 304 can be oriented towards interior direction.In addition, the 5th footwear front circumference connects Closing the component 205 on ground may include facing away from the 5th concave side wall 305 of the orientation of periphery edge 150, and the 6th footwear front circumference The component 206 of ground-engaging may include facing away from the 6th concave side wall 306 of the orientation of periphery edge 150.

In some embodiments, the component of the ground-engaging in heel region 140 can also include facing away from base The concave side wall of the periphery edge orientation of the external component of plate.As shown in Figure 2, footwear 100 may include the first heel ground-engaging Component 401, the component 402 of the second heel ground-engaging, the component 403 of third heel ground-engaging, the 4th heel engagement ground The component 405 of 404 and the 5th heel ground-engaging of component in face.As shown in Fig. 2 in addition, the structure of the first heel ground-engaging Part 401 may include the first concave side wall 411, and the component 402 of the second heel ground-engaging may include the second concave side wall 412, third footwear Component 403 with ground-engaging may include third concave side wall 413, and the component 404 of the 4th heel ground-engaging may include that the 4th is recessed The component 405 of 414 and the 5th heel ground-engaging of side wall may include the 5th concave side wall 415.As shown in Figure 2, the first concave side Wall 411, the second concave side wall 412, third concave side wall 413, the 4th concave side wall 414 and the 5th concave side wall 415 can facing away from substrate 126 periphery edge 150 orients.

In addition to the component of the ground-engaging on periphery, footwear 100 can also be included in medial surface 150 and the outside of substrate 126 The component for the ground-engaging arranged in the central part of external component 120 between face 155.Because being linearly accelerated forwardly and During running, significant load is applied in the central part of external component 120, so the ground-engaging of such centralized positioning Component may be configured with provide resist backward directions on sliding attachment frictional force feature.For example, in some embodiments In, the component of the ground-engaging of centralized positioning may include the concave side wall generally toward rear orientation.

For example, as shown in Figure 2, footwear 100 may include that the component 207 of the first center ground-engaging, the second footwear forepart connect Close the component the 210, the 5th of the component 208 on ground, the component 209 of third footwear forepart ground-engaging, the 4th footwear forepart ground-engaging The component 212 of 211 and the 6th footwear forepart ground-engaging of component of footwear forepart ground-engaging.As also shown in Figure 2, the first center The component 207 of ground-engaging may include the first concave side wall 307, and the component 208 of the second footwear forepart ground-engaging may include that second is recessed Side wall 308, the component 209 of third footwear forepart ground-engaging may include third concave side wall 309, the structure of the 4th footwear forepart ground-engaging Part 210 may include the 4th concave side wall 310, the component 211 of the 5th footwear forepart ground-engaging may include the 5th concave side wall 311 and The component 212 of 6th footwear forepart ground-engaging may include the 6th concave side wall 312.As shown in Figure 2, the first concave side wall 307, second Each in concave side wall 308, third concave side wall 309, the 4th concave side wall 310, the 5th concave side wall 311 and the 6th concave side wall 312 It can be oriented towards generally rearwardly direction.

It will additionally note that, due to the generally triangular shape of the component of the profile and ground-engaging of external component 120, In some embodiments, the component of one or more ground-engagings can both include facing away from the of the periphery edge orientation of substrate One concave side wall includes the second concave side wall generally toward rear orientation again.For example, as shown in Figure 2, the 6th periphery footwear forepart connects Closing the component 206 on ground can not only include facing away from the 6th concave side wall 306 of periphery edge 150 but also including being generally oriented to Another concave side wall 316 oriented afterwards.Because the component 206 of ground-engaging is arranged at position corresponding with first metatarsal bone head, So the component 206 of ground-engaging can bear the significant load on many different directions.The most it is evident that including It is cut in side direction when hitting, the component 206 of ground-engaging can bear highest outer side load in interior direction.Therefore, the 6th Concave side wall 306 can be provided in the attachment frictional force that sliding is resisted under such interior side load.In addition, because sportsman often exists Accelerate on the medial surface of its foot, so when sportsman is when acceleration period pushes backward, the component 206 of ground-engaging can be born Significant forward load.Therefore, concave side wall 316 can provide the attachment frictional force for resisting the forward load.

Fig. 3 is the schematic diagram of the lower perspective view of the footwear front area of external component shown in Fig. 2.As shown in Figure 3, The component 205 of 5th periphery footwear forepart ground-engaging can on the medial surface 160 of external component 120 adjacent perimeter edge 150 Arrangement.In some embodiments, multiple sides of the component 205 of ground-engaging can be recessed, thus in corresponding side Between form multiple lug bosses.For example, as shown in Figure 3, the component 205 of ground-engaging may include the first lug boss 905, second Lug boss 910 and third protrusion portion 915.Each lug boss can extend horizontally to sidewall edge.For example, the first lug boss 905 extend to the first side wall edge 906, and the second lug boss 910 extends to second sidewall edge 911, and third Lug boss 915 extends to third sidewall edge 916.In level cross-sectionn, the first side wall edge 906, second sidewall side Edge 911 and third sidewall edge 916 can form the generally triangular shaped of the component 205 of ground-engaging on the horizontal level Vertex.

In some embodiments, the lug boss of the component of ground-engaging can be from the central part portion of the component of ground-engaging Divide and generally radially extend.In addition, in some embodiments, sidewall edge can be arranged to opposite with concave side wall part. For example, as shown in Figure 3, the second lug boss 910 of the component 205 of ground-engaging can extend along axis 930.In some realities It applies in scheme, axis 930 can be from the mid portion (for example, central point 920) of the component 205 of ground-engaging generally radially Extension.As also illustrated in Fig. 3, in some embodiments, the axis 930 of the second lug boss 910 is generally perpendicular to Periphery edge 150.In addition, in some embodiments, on the direction that concave surface 305 can be indicated for example in arrow 165 back to Periphery edge 150 orients, and arrow 165 is directed toward the direction opposite with lug boss 910, and thus be essentially perpendicular to periphery edge 150。

In some embodiments, the component of ground-engaging may include being arranged to being formed substantially in substantially horizontal plane The first side wall, second sidewall and the third side wall of three sides of upper triangular cross-sectional shape.In some cases, the first side Wall, second sidewall and third side wall can be entirely recessed in horizontal plane generally.

Fig. 4 is the schematic diagram of the enlarged drawing of the component 205 of ground-engaging.In Fig. 4 in shown view, concave side wall 305 It is shown on right side, towards the lateral direction generally indicated by arrow 165.As shown in Figure 4, the component 205 of ground-engaging Side wall can be recessed in one or more orientation.For example, dotted line 455 represents that the first side wall surface 420 of side wall 305 exists Concavity in substantially horizontal plane.In addition, dotted line 460 represents second sidewall surface 425 in same substantially horizontal plane Concavity.

In some embodiments, the component of ground-engaging may include the recessed side wall table in generally vertical plane Face.The vertical concavity can provide conical cross-section for the component of ground-engaging.The conical cross-section can promote ground penetration and Ground abjection property.In addition, conical cross-section can limit the aggregation of soil, grass and other sundries on the external component of sole.

As shown in Figure 4, dotted line 465 represents 425 concavity in generally vertical plane of second sidewall surface.Such as Fig. 4 Shown in, which can be that the component 205 of ground-engaging provides tapered profile, such as by the first side wall surface 425 It is represented with the obtuse angle 450 of 126 intersection of substrate.In contrast, for example, the first side wall surface 420 can be with generallyperpendicular Angle 445 intersect with substrate 126.

In some embodiments, for each side wall of the component of ground-engaging, the vertical concavity of side wall can be Identical.In other embodiments, vertical concavity can be different different sidewall surfaces.For example, such as institute in Fig. 4 Show, dotted line 470 is generally straight line, represents the generally straight surface in substantially vertical direction.Although that is, first Sidewall surfaces 420 can have generally concave cross-sectional shape in substantially horizontal plane, but the first side wall surface is big There can be generally straight cross-sectional shape on body in perpendicular.As also illustrated in Fig. 4, which can be different from Two sidewall surfaces 425.In addition, third side wall 430 can have any configuration.

In addition to the configuration of side wall, the tip end surface of the component of ground-engaging can also have concave edge.General planar The edge of tip end surface can be provided similar to skating shoe attachment frictional force.By being provided for such edge substantially horizontal Concavity in plane, the attachment frictional force can further increase.

As shown in Figure 4, the component 205 of ground-engaging may include general planar tip end surface 435.Tip end surface exists It is general planar in substantially horizontal plane.Therefore, in some embodiments, (it can be on the first side wall surface 420 Generally vertical) it is generally perpendicular to tip end surface 435.Tip end surface 435 can have generally triangular shape, This is generally triangular shaped to have the first tip end surface edge 421, the second tip end surface edge 426 and third tip end surface side Edge 431.As shown in Figure 4, in some embodiments, the first tip end surface edge 421,426 and of the second tip end surface edge Third tip end surface edge 431 is recessed in the substantially horizontal plane where tip end surface 435.

Fig. 5 is the side view of the component 205 of ground-engaging.In some embodiments, adjacent lug boss can be big Opposite side upwardly extends on body, so as to which the component for ground-engaging provides irregular shape.For example, as shown in Figure 5, It first tip 505 of the adjacent substrates of the component 205 of ground-engaging can be from the first tip end surface side on the side of side wall 305 Edge 421 extends the first distance 510.It second tip 515 can be from the tip end surface positioned opposite with the first tip end surface edge 421 Vertex 525 extends second distance 520.As shown in Figure 5, second distance 520 can be noticeably greater than the first distance 510.Because side Wall 305 is oriented the attachment frictional force provided in some directions, the maximum load born so as to the component 205 for resisting ground-engaging Lotus, so the second tip 515 of extension can provide additional intensity under such load.Thus, the component of ground-engaging The lug boss on adjacent sidewall surface 305 can be flared out at the position of the component 205 in ground-engaging need most it is attached It ground-engaging on the direction of frictional force and wider surface is provided.(referring also to Fig. 9, Fig. 9 is for further diagram ground-engaging Component lug boss irregular size and positioning).

Fig. 6 shows the perspective view and cross-sectional view of the component 205 of ground-engaging.As shown in Figure 6, sidewall surfaces 305 Generallyperpendicular angle 445 can be formed with the lower surface 125 of the substrate 126 of external component 120.Fig. 6 is also shown Generallyperpendicular angle 440 between sidewall surfaces 305 and tip end surface 435.

In some embodiments, the sidewall surfaces of the component of ground-engaging can in a further aspect in be recessed. In some embodiments, the sidewall surfaces of the component of ground-engaging can form acute angle with substrate.Such configuration can be The surface being at an angle of to acute angle towards direction on increased earth-grasping force is provided.

Fig. 7 shows the optional embodiment of the component for ground-engaging, is shown with the cross section for being similar to Fig. 6. As shown in Figure 7, the component 700 of ground-engaging can extend from the lower surface 725 of substrate 726.The component 700 of ground-engaging It may include sidewall surfaces 705 and tip end surface 735.As shown in Figure 7, in generally vertical plane, sidewall surfaces 705 can To form acute angle 745 with the lower surface 725 of substrate 726.In some embodiments, tip end surface 735 can be arranged in greatly On body in horizontal plane, that is, it is substantially parallel to the lower surface 725 of substrate 726.Therefore, sidewall surfaces 705 can be with point End surfaces 735 form acute angle 740.

In some embodiments, the sidewall surfaces of the component of ground-engaging can be formed non-sharp with the lower surface of substrate Angle.For example, in some embodiments, sidewall surfaces can form generallyperpendicular angle with substrate.In other embodiment party In case, sidewall surfaces can form obtuse angle with the lower surface of substrate.Such as generallyperpendicular angle or the non-acute angle at obtuse angle Increased ground penetration for the component of ground-engaging can be provided and the component of ground-engaging can be promoted to deviate from from ground.

Fig. 8 shows the optional embodiment of the component for ground-engaging, is shown with the cross section for being similar to Fig. 6. As shown in Figure 8, the component 800 of ground-engaging can extend from the lower surface 825 of substrate 826.The component 800 of ground-engaging It may include sidewall surfaces 805 and tip end surface 835.As shown in Figure 8, in generally vertical plane, sidewall surfaces 805 can To form obtuse angle 845 with the lower surface 825 of substrate 826.In some embodiments, tip end surface 835 can be arranged in greatly On body in horizontal plane, that is, it is substantially parallel to the lower surface 825 of substrate 826.Therefore, sidewall surfaces 805 can be with point End surfaces 835 form acute angle 840.

In some embodiments, the lug boss of the component of ground-engaging can be from generally triangular tip end surface Vertex is upwardly extended in side generally diametrically.Such configuration can provide predictable attachment frictional force and can be opposite It manufactures soon.

Fig. 9 is the bottom view of the component 205 of ground-engaging.As shown in Figure 9, the tip table of the component 205 of ground-engaging Face 435 can have approximate central point 920.Tip end surface 435 can have first be arranged in the first longitudinal axis 925 Top of the tip 940, the second top of the tip 950 being arranged in the second longitudinal axis 930 and it is arranged in third longitudinal axis Third top of the tip 960 on 935.As also illustrated in Fig. 9, the component 205 of ground-engaging may include extending to the first side wall First lug boss 905 at edge 906.In addition, the component 205 of ground-engaging may include extending to the of second sidewall edge 911 Two lug bosses 910.Equally, the component 205 of ground-engaging may include extending to the third protrusion portion 915 of third sidewall edge 916. It can intersect at the first base portion vertex 945 with substrate at the first side wall edge 906.Similarly, second sidewall edge 911 can be with Substrate intersects at the second base portion vertex 955.In addition, third sidewall edge 916 can be with substrate at third base portion vertex 965 It is intersecting.As shown in Figure 9, the first base portion vertex 945 can be along first axle 925 cloth identical with the first top of the tip 940 It puts.Similarly, the second base portion vertex 955 can be arranged along the second axis 930 identical with the second top of the tip 950.In addition, Third base portion vertex 965 can be arranged along the third axis 935 identical with third top of the tip 960.

Figure 10 shows the perspective view of the component 205 of ground-engaging and multiple cross-sectional views, further it is shown that lug boss it is big Radially extending on body.Figure 10 is shown between tip end surface 435 and substrate along the height of the component of ground-engaging 205 The horizontal cross-sectional shapes of the component 205 of 1005 ground-engagings intercepted in several horizontal planes generally.It is cutd open first At upper thread 1010, the component 205 of ground-engaging has the first cross-sectional shape 1011.At the second hatching 1015, engagement ground The component 205 in face has the second cross-sectional shape 1016.At third hatching 1020, the component 205 of ground-engaging has the Three cross-sectional shapes 1021.At the 4th hatching 1025, the component 105 of ground-engaging has the 4th cross-sectional shape 1026. In addition, at tip end surface 435, the component of ground-engaging has the 5th cross-sectional shape 436.

As shown in Figure 10, the first cross-sectional shape 1011, the second cross-sectional shape 1016, third cross-sectional shape 1021st, the 4th cross-sectional shape 1026 and the 5th cross-sectional shape 436 can have various sizes of substantially the same shape. As also shown, in the major part of the height 1005 of the component of ground-engaging 205, side wall can be recessed in the horizontal direction 's.In some embodiments, at least the 90% of the component of ground-engaging height dimension, side wall can be in the horizontal direction On be recessed.

Also, it is noted that when lug boss generally radially extends (as about Fig. 9 is shown and discussing), often A shape is upwardly-directed in substantially the same side.

In some embodiments, one or more of component of ground-engaging lug boss can be on non-radial direction Extension.Non-radial lug boss can provide the twist configuration similar to turbo blade.What such configuration can extend in lug boss Increased attachment frictional force on direction is provided, and less attachment frictional force is provided in the opposite direction.It is in addition, such Configuration will provide the attachment frictional force of the rotation of the approximate center point for the component for surrounding ground-engaging, and the attachment frictional force is at one It is more powerful than in the other directions on direction.For example, the component of such ground-engaging can in the clockwise direction rather than Increased attachment frictional force is provided in the counterclockwise direction.

Figure 11 is the bottom view of the component 213 (see Fig. 2) of ground-engaging.As shown in Figure 2, the component 213 of ground-engaging It can be positioned in toe cap region towards the forward end of sole.The component 213 of ground-engaging can be configured with non-radial convex The portion of rising, the non-radial lug boss provide increased attachment frictional force during medial heel rotates, but allow lateral shoe with more certainly It is rotated by ground.Directionality attachment frictional force is non-on the thigh bone bone of such as knee and ankle during can reducing torsional motion Desired stress.

As shown in Figure 11, the component 213 of ground-engaging may include tip end surface 1105.The component 213 of ground-engaging is also It can include extending to first lug boss 1110 at the first side wall edge 1111, extend to the second convex of second sidewall edge 1116 It plays portion 1115 and extends to the third protrusion portion 1120 of third sidewall edge 1121.Tip end surface 1105 can have generally three Angular shape, this is generally triangular shaped including the first top of the tip 1145, the second top of the tip 1155 and third tip Vertex 1165.First top of the tip 1145 may be arranged at the from the extension of the approximate center point 1125 of the component 213 of ground-engaging In one longitudinal axis 1126.In addition, the second top of the tip 1155 may be arranged at the second longitudinal axis extended from central point 1125 On 1127, and third top of the tip 1165 may be arranged at from the third longitudinal axis 1128 that central point 1125 extends.

The first side wall edge 1111 of first lug boss 1110 extends to the first base portion vertex 1146.Second lug boss 1115 second sidewall edge 1116 extends to the second base portion vertex 1156.And the third side wall in third protrusion portion 1120 Edge 1121 extends to third base portion vertex 1166.First base portion vertex 1146 may be arranged at the first non-radial axis 1130 On.Second base portion vertex 1156 may be arranged on the second non-radial axis 1135.And third base portion vertex 1166 may be arranged at On the non-radial axis 1140 of third.Therefore, the first lug boss 1110, the second lug boss 1115 and third protrusion portion 1120 can be respective Extend on non-radial axis.First non-radial axis 1130 can be relative to the first longitudinal axis 1126 with first angle 1150 Positioning.Similarly, the second non-radial axis 1135 can be positioned relative to the second longitudinal axis 1127 into second angle 1160. Also, the non-radial axis 1140 of third can be positioned relative to third longitudinal axis 1128 with third angle 1170.In some realities It applies in scheme, first angle 1150, second angle 1160 and third angle 1170 can be substantially the same.In other implementations It, can be different from other angle in order to provide one or more of directionality attachment frictional force, these angles in scheme.

Figure 12 shows the perspective view of the component 213 of the ground-engaging shown in Figure 11 and multiple cross-sectional views.Such as Figure 12 Shown in, the base portion circumference 1210 of the component 213 of ground-engaging can have base portion cross-sectional shape 1211.In addition, it is cutd open first At upper thread 1215, the component 213 of ground-engaging can have the first cross-sectional shape 1216.In addition, at the second hatching 1220, The component 213 of ground-engaging can have the second cross-sectional shape 1221.Moreover, at third hatching 1225, ground-engaging Component 213 can have third cross-sectional shape 1226.Also, tip end surface 1105 can have tip cross-sectional shape 1206.Such as Shown in Figure 12, cross-sectional shape is generally similar shape, but is different in size, reflects the structure of ground-engaging The conical configuration of part 213.In addition, cross-sectional shape is different in orientation.For example, base portion cross-sectional shape 1211 is relative to tip Cross-sectional shape 1206 is rotated with base portion angle 1212.Similarly, relative to tip cross-sectional shape 1206, the first cross section shape Shape 1216 is rotated with first angle 1217, and the second cross-sectional shape 1221 is rotated with second angle 1222, and third cross section Shape 1226 is rotated with third angle 1227.As shown in Figure 12, base portion angle 1212, first angle 1217, second angle 1222 and third angle 1227 it is different, reflect lug boss along the height of the component 213 of ground-engaging non-radial Increased deviation on direction.Difference between these angles can be consistent.In other embodiments, these angles are from engagement It the top of the component on ground to bottom can be different.In addition, in some embodiments, on the component of same ground-engaging, For a lug boss, angle can be consistent, but for other lug bosses, angle can be different.

Figure 13 is the bottom perspective view of arrangement of the component of ground-engaging in the heel region 140 of article of footwear 100. As shown in Figure 13, the first concave side wall 411, the second concave side wall 412, third concave side wall 413, the 4th concave side wall 414 and the 5th are recessed Side wall 415 can be back to periphery edge 150 towards heel region 140 central part 1320 orient.As in addition shown in Figure 13 Go out, the lug boss of the component 402 of the second heel ground-engaging can extend along axis 1310, which can be opposite It is arranged in periphery edge 150 with angle 1305.In some embodiments, angle 1305 can be generallyperpendicular angle. In addition, the second concave side wall 412 of the component 402 of the second heel ground-engaging can on the direction indicated by arrow 1315 back to Periphery edge 150 is oriented towards central part 1320.As discussed above, the configuration of the component of ground-engaging can provide Directionality attachment frictional force, but regardless of the heel of wearer which side contact first ground and/or the heel of wearer which Side contacts ground with larger power.

Figure 14 is another bottom perspective view of the arrangement of the component of the ground-engaging shown in Figure 13.Such as institute in Figure 14 Show, due to the generally triangular shape of the component of the curvature and ground-engaging of periphery edge 150, in some cases, connect Close the second concave side wall that the component on ground can be oriented with the concave side wall oriented back to periphery edge 150 and after being generally oriented to. For example, as shown in Figure 14, the component 404 of the 4th heel ground-engaging can have the 4th concave side wall 414, the 4th concave side wall 414 orient on the direction indicated by arrow 1316 back to periphery edge 150 towards central part 1320.In addition, the 4th heel The component 404 of ground-engaging can also include second sidewall 1405, which can be indicated by arrow 1410 It is oriented after being generally oriented on direction.As discussed above, the medial surface of footwear may be loaded significantly in acceleration period. Therefore, the component 404 of the component of the ground-engaging of disposed inboard, such as the 4th heel ground-engaging can not only provide increase Lateral attachment frictional force but also provide increased attachment frictional force for linear accelerating.

Figure 15 is the bottom view of the footwear front area of article of footwear 1500, shows the longitudinal direction weight of the component of ground-engaging It is folded.The footwear 1500 and the component of ground-engaging shown in Figure 15 can have above with respect to other embodiments (including institute in Fig. 2 Any one of the embodiment shown) described feature, the embodiment shown in Figure 2 is shown as having identical connect Close the member configuration on ground.As shown in Figure 15, the footwear front area of footwear 1500, which can have from rearmost footwear forepart, engages ground The longitudinal length 1501 that the component 1502 in face and the component 1503 of forefront footwear forepart ground-engaging extend.In addition, footwear 1500 With lateral surface 1560 and medial surface 1565.

Footwear 1500 may include vamp 1505 and be fixedly attached to the footwear sole construction 1506 of the bottom part of vamp 1505. Footwear sole construction 1506 may include the external component 1507 of ground-engaging, and the external component 1507 of the ground-engaging, which may include having, to be connect Close the substrate 1510 of the bottom surface 1515 on ground.In addition, external component 1507 may include from the ground-engaging of substrate 1510 The component of multiple ground-engagings that bottom surface 1515 generally extends downwardly.

In some embodiments, two or more in the component of ground-engaging can be with longitudinal overlap.In some realities It applies in scheme, the component of the ground-engaging of footwear front area can overlap each other arrangement in a longitudinal direction so that footwear forward region All parts of the longitudinal length in domain are occupied by the component of at least one ground-engaging.For purposes of discussion, it will discuss several The component of the ground-engaging of overlapping, it will be appreciated that, the component of ground-engaging can be along the entire longitudinal direction of footwear front area Length is longitudinally overlapped.The component of ground-engaging, Ke Yiyan are longitudinally arranged by the entire longitudinal length along footwear front area The entire longitudinal length for footwear front area provides attachment frictional force in a lateral direction.

Some parts being laterally extended (for example, corresponding with metatarsal-phalangeal joint) of footwear front area, which can have, reduces number The component of the ground-engaging of amount, to provide flexibility for external component.However, in order to provide attachment friction in outer side direction Power, such part may include the component of at least one ground-engaging.

As shown in Figure 15, external component 1507 may include the engagement of component 1521, second ground of at least the first ground-engaging The component 1524 of the component 1522 in face, 1523 and the 4th ground-engaging of component of third ground-engaging.In some embodiments, The major part of the component 1521 of first ground-engaging can than the component 1522 of the second ground-engaging major part backward further Arrangement, and the part of the component 1522 of 1521 and second ground-engaging of component of the first ground-engaging can be along footwear forward region 1501 longitudinal overlap of longitudinal length in domain.As shown in Figure 15, the component 1521 of the first ground-engaging may include first most forward Part 1525.The component 1522 of second ground-engaging may include the second most rearward portion 1526.As shown in Figure 15, first The component 1521 of ground-engaging can be with 1522 longitudinal overlap of component of the second ground-engaging.For example, the structure of the first ground-engaging It the most forward part 1525 of the first of part 1521 can be than the second most rearward portion of the component 1522 of the second ground-engaging 1526 extend forward it is farther.Thus, the component 1521 of the first ground-engaging can be with the component 1522 of the second ground-engaging Longitudinal overlap in one overlapping region 1531.

In addition, the component 1522 of the second ground-engaging and the component 1523 of third ground-engaging can be overlapped longitudinally of one another. As shown in Figure 15, the component 1522 of the second ground-engaging may include the most forward part 1527 of third, and third engagement ground The component 1523 in face may include the 4th most rearward portion 1528.In some embodiments, the component of the second ground-engaging It the most forward part 1527 of 1522 third can be than the 4th most rearward portion 1528 of the component 1523 of third ground-engaging Extend forward farther.Thus, the component 1522 of the second ground-engaging can be with the component 1523 of third ground-engaging in the second weight Longitudinal overlap in folded region 1545.

Similarly, the component 1523 of third ground-engaging can be with 1524 longitudinal overlap of component of the 4th ground-engaging.Such as Shown in Figure 15, the component 1523 of third ground-engaging may include the 5th most forward part 1529, and the 4th ground-engaging Component 1524 may include the 6th most rearward portion 1530.In some embodiments, the component 1523 of third ground-engaging The 5th most forward part 1529 can than the component 1524 of the 4th ground-engaging the 6th most rearward portion 1530 forward Extend farther.Thus, the component 1523 of third ground-engaging can be with the component 1524 of the 4th ground-engaging in third overlay region Longitudinal overlap in domain 1550.

It should be noted that the component 1522 of the second ground-engaging can be arranged on the metatarsal-phalangeal with the foot of wearer The component of unique ground-engaging in the corresponding lateral extensions in joint.It is curved to be conducive to foot that this can provide flexibility Song, while keep the attachment frictional force on horizontal direction.

Figure 16 is the partial lateral face view of the article of footwear shown in Figure 15.As shown in Figure 16, the first ground-engaging Component 1521, the component 1522 of the second ground-engaging, third ground-engaging 1523 and the 4th ground-engaging of component component 1524 can overlap each other.For example, as shown in Figure 16, the component 1521 of the first ground-engaging can be with the second ground-engaging Component 1522 is longitudinally overlapped longitudinal overlap distance 1535 in the first overlapping region 1531.Therefore, outside the component of ground-engaging Minimum constructive height of the shape in overlapping region 1531 is represented by minimum constructive height size 1540.In other embodiments, ground-engaging Component can abut longitudinally of one another so that there is no overlapping region, but there is no axial clearance.In such embodiment In, at a longitudinal point between the component of adjacent ground-engaging, minimum constructive height will be zero or substantially zero.

In some embodiments, shoelaces acceptance components can be formed by one or more rope.Rope, which can be arranged, to be shaped as Shoestring receives ring, these shoestrings receive ring to be configured to receive shoestring in the lacing zone of article of footwear.Rope can be from frenum area Domain extends downwardly into footwear sole construction along the side of article of footwear.In some embodiments, rope can be in the foot of wearer Lower section extends to opposite side from the side of article of footwear.

Rope can be made of any suitable material.In some embodiments, rope could be formed with the elasticity of predetermined amount. The use of elastic string can provide comfort by allowing the limited amount expansion of footwear during the foot of wearer moves. In other embodiments, rope can be formed generally inelastic.Such nonelastic rope can provide consistent and therefore Predictable tension.In some embodiments, tension consistent as providing generally inelastic rope can make Wearer can more tightly fasten shoestring.

Figure 17 is the partial side view for the article of footwear 1700 for including vamp 1705 and footwear sole construction 1710.Footwear sole construction 1710 may include that ground contacts external component 1715, and ground contact external component 1715 can be fixedly attached to vamp 1705 Low portion.Footwear 1700 can also include lacing zone 1725.As shown in Figure 17, in some embodiments, frenum area Domain 1725 can be positioned in footwear back of the body region (the instep region) 1730 of the vamp 1705 of footwear 1700.Footwear 1700 can Any one of feature including vamp as described above and footwear sole construction.In addition, as shown in Figure 17, footwear 1700 can The rope 1735 of ring 1740 is received including forming shoestring, shoestring receives ring 1740 to be configured to receive shoestring 1745.As shown in Figure 17, In some cases, rope 1735 can use stitching 1750 to be fixed to vamp 1705.In some embodiments, rope 1735 can be consolidated Surely it is attached to vamp 1705.For example, as shown in Figure 17, in some cases, rope 1735 can be fixed to stitching 1750 Vamp 1705.

In some embodiments, rope 1735 can receive ring 1740 to be fixed to vamp 1705 adjacent to shoestring.By making rope 1735 receive ring 1740 to be fixed to vamp 1735 adjacent to shoestring, and shoestring receives the position of ring to may remain in the position of needs to have Footwear 1700 are predictably adjusted conducive to shoestring 1745.

Figure 18 is the lateral side view for including being formed the article of footwear 1800 for multiple ropes 1828 that shoestring receives ring.Such as Figure 18 Shown in, footwear 1800 may include vamp 1805 and footwear sole construction 1810.Vamp 1805 can have above for other disclosed Any one of described feature of embodiment.In addition, footwear 1800 can have footwear front area 1812, footwear central region Domain 1813 and heel region 1814.Footwear 1800 can also include lateral surface 1815.Moreover, footwear 1800 may include being open 1817, which is configured to make the foot of wearer to be received into the cavity defined by vamp 1805.

As shown in Figure 18, footwear sole construction 1810 can include the external component 1811 of ground-engaging.In some embodiment party In case, external component 1811 can be equipped with the shoe sole component of anti-slip part, as shown in Figure 18.In some embodiments, outside Portion's component 1811 can be generally incompressible.For example, in some cases, external component 1811 can be by relatively hard Plastic material is formed.In addition, the part of external component 1811 can also be in terms of bending and/or distortion relative stiffness (no It is flexible).

As shown in Figure 18 in addition, in some embodiments, footwear 1800 may include that footwear carry on the back region 1820.Footwear 1800 may include the lacing zone 1825 in footwear carry on the back region 1820.Also as shown in Figure 18, footwear 1800, which may include being formed, is Shoestring in region 1825 receives multiple ropes 1828 of ring.For example, multiple ropes 1828 may include the first rope 1830 and the second rope 1850.Multiple ropes can also include third rope 1865.

In some embodiments, rope can extend between vamp and the external component of footwear sole construction.In some implementations In scheme, one or more rope can extend through external component.The external component of various types of footwear can be in some portions It is relative stiffness in point.For example, in the footwear equipped with anti-slip part of such as footwear 1800, external component can be by such as hard Generally incompressible material of plastics is formed.In addition, in some parts, the footwear central region of such as footwear and heel part area In domain, external component can be generally rigid.Therefore, by the way that shoestring is received rope, across external component, shoestring receives rope Metastable structure can be fixed to, it is powerful with consistent tension so as to be applied with the shoestring of footwear.It is that is, because external These rigid and incompressible parts of the bending of minimally under loads of component, so the tension on rope will not be due to Deformation in external component during use and change.This can provide comfort, tight fit and stability.In some embodiments In, rope can extend through external component at two or more positions.This can increase by by making rope across external structure Part anchors provided reinforcement.

As shown in Figure 18, the first rope 1830 can extend through the in the footwear central region 1813 of external component 1811 One through-hole 1835 and the second through-hole 1840.Similarly, the second rope 1850 can extend through the third through-hole of external component 1811 1855 and fourth hole 1860.First rope 1830 can leave external component 1811 and in footwear on the medial surface of footwear 1800 The back of the body diagonally extends on region 1820, as shown in Figure 18.(being also described in Figure 19 and Figure 20).

In addition, forming shoestring receives ring as shown in Figure 18, in the lacing zone 1825 that rope can carry on the back region 1820 in footwear. For example, the first rope 1830 can form the first shoestring on the lateral surface 1815 of footwear 1800 receives ring 1831.Second rope 1850 The second shoestring can be formed and receive ring 1851.In addition, third rope 1865, which can form third shoestring, receives ring 1872.

Figure 19 is the vertical view of the footwear 1800 shown in Figure 18.As shown in Figure 19, the first rope 1830 and the second rope 1850 can diagonally extend to lateral surface 1815 from the medial surface 1816 of footwear 1800 across footwear back of the body region 1820.In addition, the One rope 1830 and the second rope 1850 can extend in footwear front area 1812 below vamp 1805.In footwear front area 1812 In passed through below vamp 1805 after, the first rope 1830 can upwardly extend along the medial surface 1816 of footwear 1800 and form the Four shoestrings receive ring 1832.Similarly, after being passed through below vamp 1805 in footwear front area 1812, the second rope 1850 can be with It is upwardly extended along the medial surface 1816 of footwear 1800 and forms the 5th shoestring and receive ring 1852.(being also described in Figure 23).

Figure 20 is the medial side view of the footwear 1800 shown in Figure 18 and Figure 19.As shown in Figure 20, the first rope 1830 It can be left and along the inside of footwear 1800 from 1835 and second through-hole 1840 of first through hole in external component 1811 1816 extend to the lateral surface 1815 of footwear 1800 upwards and across footwear back of the body region 1820.Then, in footwear front area 1812 After being passed through below vamp 1805 between vamp 1805 and external component 1811, the first rope 1830 can be along footwear front area Medial surface 1816 in 1812 is upwardly extended receives ring 1832 to form the 4th shoestring.

Similarly, the second rope 1850 can leave from the third through-hole 1855 in external component 1811 and fourth hole 1860 And lateral surface 1815 upward along the medial surface 1816 of footwear 1800 and that footwear 1800 are extended to across footwear back of the body region 1820. Then, after being passed through below vamp 1805 between vamp 1805 and external component 1811 in footwear front area 1812, second Rope 1850 can be upwardly extended along the medial surface 1816 in footwear front area 1812 receives ring 1852 to form the 5th shoestring.

Footwear can have any suitable combination of component.For example, vamp can have the various combinations of layer.Layer can be with It is formed by a variety of materials, including mesh fabric, leather, synthetic leather and the reinforcement material selectively placed.Rope can be arranged At different positions in the layer of vamp.Some ropes can be generally exposed.Most of rope in some ropes can be with cloth It puts at least one layer of lower section of vamp.In some cases, the uniquely exposed part of rope can be the shoestring formed by rope Receive ring.

Figure 21 is the exploded view of the footwear 1800 shown in Figure 18.As shown in Figure 18, vamp 1805 may include the first footwear Face layer 1870 and the second vamp upper layer 1875.In some embodiments, the first vamp upper layer 1870 can be overall length layer (full length layer).In some embodiments, the first vamp upper layer 1870 can include ventilative mesh fabric.In some feelings Under condition, the first vamp upper layer 1870 may include gasket mesh fabric.Second vamp upper layer 1875 can be partial-length layer (partial length layer).For example, as shown in Figure 21, the second vamp upper layer 1875 can be in the surface region of the first vamp upper layer 1870 A part on extend.In some embodiments, the second vamp upper layer 1875 can be enhancement layer.In addition, in some embodiment party In case, the second vamp upper layer 1875 can be substantially transparent.Therefore, the part of the first vamp upper layer 1870 and the part of rope can be with It is visible through the second vamp upper layer 1875.In some embodiments, vamp 1805 may include one or more other layers, Such as lining, enhancement layer and any other suitable component.

As shown in Figure 21, the first rope 1830 and the second rope 1850 can be arranged in the first vamp upper layer 1870.Similarly, Third rope 1865 can also be arranged in the first vamp upper layer 1870.In first the 1830, second rope 1850 of rope and third rope 1865 One or more parts can be arranged in the part lower section of the second vamp upper layer 1875.For example, as shown in Figure 22, in some positions Place is put, the first rope can be arranged between the first vamp upper layer 1870 and the second vamp upper layer 1875, wherein one of the first rope 1830 Divide and exposure is kept to receive ring 1831 to form the first shoestring.

Figure 23 is the bottom view of the article of footwear shown in Figure 18.Figure 23 shows first relative to external component 1811 The configuration of 1830 and second rope 1850 of rope.For example, as shown in Figure 23, the first rope 1830 and the second rope 1850 can extend through The longitudinal rib 1885 positioned at center in external component 1811.That is, first through hole 1835, the second through-hole 1840, third through-hole 1855 and fourth hole 1860 can be laterally oriented to pass through flank 1885.Flank 1885 can be in footwear central region 1813 and footwear Rigidity is provided in heel area 1814.For example, flank 1885 can be provided in footwear front area 1812 and heel region The resistance of bending and distortion rotation between 1814.Therefore, it by the way that rope is made to extend through the flank 1885 of external component 1811, restricts Rigid and incompressible structure can be anchored to.Therefore, when the shoestring for being tightened through the first rope 1830 and the second rope 1850 When receiving the shoestring of ring, region can be carried on the back across the footwear of the 1800 of footwear and realize lock fit.In addition, the first rope 1830 and 1850 Part can be sewn onto vamp 1805 in the seam area 1880 of the medial surface 1816 of vamp 1805.This can keep rope At desired position.

Also as shown in Figure 23, the first rope 1830 and second a part of of rope 1850 can be in the footwear forward regions of footwear 1800 Extend below vamp 1805 between vamp 1805 and external component 1811 in domain 1812, such as the separation in external component 1811 Toe portion (split-toe portion) in it is visible.The arrangement of rope can be than extending through external component 1811 Part is less rigidly to be anchored.

Although the rigidity anchoring restricted in the footwear central region of footwear may be needed, the forefoot region of foot may More dynamic, and thus the more flexible configuration restricted may be needed to allow the various actions of front foot.Furthermore it is possible to It is manufactured between vamp and external component and assembles rope, but may be manufactured easily compared with across external component assembling rope It is less expensive.Therefore, by the way that rope is made selectively to extend through external component in some regions and in other regions In extend between vamp and external component, can in the desired zone of footwear selectively provide rigidity anchoring, protect simultaneously It holds the characteristic of required footwear forepart appropriate degree (for example, flexible) and manufactures the cost-effectiveness of footwear entirety.

Figure 24 is the bottom view of the heel region of the article of footwear shown in Figure 18.As shown in Figure 24, in some realities It applies in scheme, flank 1885 can have the downward projection of structure with angled lateral part.For example, flank 1885 can be with Including the first side wall 1890 and second sidewall 1895.First through hole 1835, the second through-hole 1840, third through-hole 1855 and the 4th Through-hole 1860 respectively can extend to second sidewall 1895 since the first side wall 1890.

Figure 25 is the schematic diagram for passing through arrangement of the rope of the footwear 1800 shown in Figure 18.Figure 25 is shown including the first footwear Footwear front area 1812 and footwear central region 1813 in the component of face layer 1870 and the vamp 1805 of the second vamp upper layer 1875.Figure 25 also show passing through for the first rope 1830 and the second rope 1850.It should be noted that the dotted line in Figure 25 represents the first rope 1830 With second rope 1850 below vamp 1805 by position.As discussed above, rope can be worn in footwear central region 1813 It crosses external component 1811 and is passed through between vamp 1805 and external component 1811 in footwear front area 1812.

For discussion purposes, it will be discussed in detail passing through for the second rope 1850.However, it should be understood that in some realities It applies in scheme, passing through for the first rope 1830 can be substantially the same with the second rope 1850, as shown in Figure 25.In other embodiment party In case, the first rope 1830 and passing through for the second rope 1850 can be generally different each other.

In some embodiments, rope can have splayed rope to arrange (figure eight strand arrangement).Such splayed rope arrangement can use minimum material and thus minimum weight in the big portion of foot The supportive cooperation of locking is provided in point surface region.For example, in some embodiments, footwear may include being formed in vamp The first shoestring of neighbouring footwear back of the body region arrangement receives one or more ropes of ring and receives ring edge from the first shoestring in first side The first side for vamp extends downwardly into a pair of of rope of footwear sole construction.The rope of splayed rope arrangement may also pass through footwear sole construction External component, along vamp second side upwards and diagonally across the footwear of vamp the back of the body region, first along vamp Side is downward and is upwardly extended below vamp and along the second side of vamp.Rope can be then in the second side of vamp Neighbouring footwear back of the body region, which is formed, on face receives ring with the first shoestring diagonally opposite the second shoestring receives ring.

As shown in Figure 25, the second rope 1850 can be passed down through along the lateral surface 1815 of vamp 1805, such as by first Indicated by arrow 1900.Second rope 1850 can be then below the footwear central region 1813 of vamp 1805 in interior direction Extension, as shown in the second arrow 1905.Second rope 1850 can then as indicated by third arrow 1910 along interior Side 1816 is upward through, and as diagonally being passed through across footwear back of the body region indicated by the 4th arrow 1915.Second rope 1850 can as being extended downwardly in footwear front area 1812 along medial surface 1816 indicated by the 5th arrow 1920, and As extending below the footwear front area 1812 of vamp 1805 in interior direction indicated by the 6th arrow 1925.Second Rope 1850 can be then as being upward through along the medial surface 1816 of vamp 1805 to the 5th indicated by the 7th arrow 1930 Shoestring receives ring 1852.

Second rope 1850 can and then pass through in the reverse direction as described above.That is, the second rope 1850 can be such as by the Being passed down through along medial surface 1816 indicated by eight arrows 1935, and as indicated by the 9th arrow 1940 in outer side It is passed through upwards across 1805 lower section of vamp.Second rope 1850 can then as indicated by the tenth arrow 1945 along vamp 1805 lateral surface 1815 is upward through, and as diagonally being worn across footwear back of the body region indicated by the 11st arrow 1950 It crosses.Second rope 1850 can also as being passed down through along medial surface 1816 indicated by the 12nd arrow 1955, and such as by Being passed through below vamp 1805 in outer side direction indicated by the 13rd arrow 1960.Finally, the second rope 1850 can be right Afterwards as received ring 1851 as extending up to the second shoestring along lateral surface 1815 indicated by the 14th arrow 1965.

The circuit of second rope 1850 can be closed by the way that the part of the second rope 1850 is sewn onto its own.For example, such as Shown in Figure 25, second rope 1850 first end 1853 can with second rope 1850 the second end 1854 in overlapping region It is overlapped in 1970.In one or more parts of overlapping region, first end 1853 can be fixedly attached to the second end 1854.For example, at the first end of overlapping region 1970, first end 1853 can be fixedly attached to using stitching 1975 The second end 1854.At the second end of overlapping region 1970, first end 1853 can utilize stitching 1980 regularly attached It is connected to the second end 1854.

Overlapping region 1970 can form at least part that the second shoestring receives ring 1851.Therefore, except by first end 1853 are fixed to outside the second end 1854, and stitching 1975 and stitching 1980 can also receive the second rope 1850 adjacent to the second shoestring Ring 1851 is fixedly attached to vamp 1805.

As shown in Figure 25, in some embodiments, the part of the first rope 1830 and the second rope 1850 can be first Extend between 1870 and second vamp upper layer 1875 of vamp upper layer.In some embodiments, the first rope 1830 and the second rope 1850 Part can extend above the second vamp upper layer 1875 (outside the second vamp upper layer 1875).For example, as shown in Figure 25, rope can To extend on the inside footwear mid portion 1985 of the second vamp upper layer 1875.Similarly, rope can be in the second vamp upper layer 1875 Extend on lateral shoe front part 1990.

Figure 26 be the rope of the footwear 1800 shown in Figure 18 another pass through arrangement schematic diagram.Although in Figure 26 It is substantially the same in the positioning of rope and Figure 25, but Figure 26 shows the optional mode for realizing rope arrangement.First, as in Figure 26 Shown, rope can be in inside footwear mid portion 1895 and lateral shoe front part 1900 in the first vamp upper layer 1870 and the second footwear Extend between face layer 1875.Secondly, although in fig. 25 by wire rope handling in one direction, make rope to return folded in half upon itself and Rope is fixedly attached to its own at one end, the arrangement is realized, but in fig. 26 by making two with closed circuit Rope parallelly passes through and is then securely attached to two ends two ropes to realize the cloth each other with closed circuit It puts.

As shown in Figure 26, the second rope 1850 can be passed through by surrounding vamp 1805 and is fixed to each other in each end Parallel rope formed.For example, second rope 1850 can the footwear of vamp 1805 carry on the back region in from second rope 1850 relatively in Center portion point passes through in the opposite direction.Second rope 1850 can downwards be worn in footwear front area 1812 towards lateral surface 1815 It crosses, as indicated by arrow 1995.As shown in Figure 26, in some embodiments, the second rope 1850 can be arranged in the Below at least part of two vamp upper layers 1875.Therefore, when second restricts 1850 close to footwear sole construction, the second rope 1850 can be worn Cross the first slit 1996 in the second vamp upper layer 1875.Second rope 1850 can as indicated by arrow 2015 in vamp 1805 The lower section of footwear front area 1812 passed through in interior direction, and then as indicated by arrow 2020 along footwear forward region The medial surface 1816 in domain 1812 is upward through to the 5th shoestring and receives ring 1852.

It is upwardly extended with the opposite side in footwear back of the body region, the second rope 1850 can be as indicated by arrow 2000 in footwear forepart In region 1812 towards medial surface 1816 diagonally across.In some embodiments, the second rope 1850 can be in the second vamp The part lower section of layer 1875 extends, and can be to pass through the second slit 2001 in the second vamp upper layer 1875.Second rope 1850 It can also be as being passed through below vamp 1805, and as indicated by arrow 2010 in outer side direction indicated by arrow 2005 Along lateral surface 1815 be upward through to the second shoestring receive ring 1851.

As being also shown in fig. 26, other than the second shoestring receives ring 1851 to have overlapping region, the 5th shoestring is received Ring 1852 can also have an overlapping region 2025, the overlapping region 2025 by overlapping and utilize the first stitching 2030 and the Two stitchings 2035 and be fixed to mutual first end 2021 and the second end 2022 is formed.In some embodiments, it is overlapped The configuration in region 2025 can be substantially the same with the configuration of overlapping region 1970 as described above.

In some embodiments, it is not that rope receives ring fixed to its own to complete circuit and form shoestring, but Rope can optionally between lacing zone and footwear sole construction pass through and receive ring to form one or more shoestrings up and down. In such embodiments, the end of rope can anchor to the external component of footwear sole construction.For example, in some embodiments In, the end of rope can extend through the through-hole in external component and can be anchored by tying, these knots can prevent from restricting End pass through external component in hole be pulled.

Figure 27 is the bottom view of article of footwear 2700, which is included with the external component in footwear sole construction The rope of the end of middle anchoring.As shown in Figure 27, footwear 2700 may include vamp 2705 and footwear sole construction 2710.Footwear sole construction 2710 may include external component 2711.Footwear 2700 may include footwear front area 2712, footwear central region 2713 and heel part area Domain 2714.In addition, footwear 2700 can have lateral surface 2715 and medial surface 2716.External component 2711 can include having first The flank 2717 center, being longitudinally extended of side wall 2718 and second sidewall 2719.These components can have with being begged for above The substantially the same or similar characteristic and feature of other embodiments of opinion.

Footwear 2700 may include anchoring to one or more ropes of external component 2711 in the end of rope.For example, as schemed Shown in 27, vamp 2700 may include the first rope 2720.First rope 2720 can be in the end anchoring of the first rope 2720 To external component 2711.For example, as shown in Figure 27, the first rope can extend through the flank 2717 of external component 2711, and And the first knot 2745 of the end of the first rope 2720 can be included in, which is configured to prevent rope 2720 from passing through the The first aperture 2731 in one side wall 2718 is pulled.Knot 2745 can be structured to appointing for the enlarged-diameter for making the first rope 2720 What suitable knot.In other embodiments, the first rope 2720, which can have, is mounted on the end of the first rope 2720 to expand the The other feature of the diameter of the end of one rope 2720.

From knot 2745, the segment of the first rope 2720 can extend through flank 2717 from the first aperture 2731 and can be from It leaves in the second aperture 2732.First exposure segment 2721 of the first rope 2720 can be from the second aperture 2732 along vamp 2705 Lateral surface 2715 is upwardly extended and is returned in the second exposure segment 2722.In the first exposure segment 2721 and second exposure section Turning between section 2722 can form shoestring and receive ring.(see Figure 29).Second exposure segment 2722 extends to third hole Mouth 2733.First rope 2720 can extend to the 4th aperture 2734 from third aperture 2733 across flank 2717.

From the 4th aperture 2734, the third exposure segment 2723 of the first rope 2720 can be upwardly extended along medial surface 2716 Footwear to footwear carry on the back region.Third exposure segment 2723 can be transitioned into the 4th exposure segment 2724, be received so as to form shoestring Ring.(see Figure 29).4th exposure segment 2724 can extend downwardly into the 5th aperture 2735, wherein the first rope 2720 can enter External component 2711.First rope 2720 can leave from the 6th aperture 2736, and the 5th exposure segment 2725 can be along footwear The lateral surface 2715 in face 2705 upwardly extends and is transitioned into the 6th exposure segment 2726, so as in the lateral surface of vamp 2705 Another shoestring is formed on 2715 and receives ring.(see Figure 29).

6th exposure segment 2726 extends to seven apertures in the human head mouth 2737, wherein the first rope 2720 can enter external component 2711.First rope 2720 can leave external component 2711, and the 7th exposure section of the first rope 2720 from octal mouth 2738 Section 2727 can be upwardly extended along the medial surface 2716 of vamp 2705, the 8th exposure segment 2728 is transitioned into, so as in inside Another shoestring is formed on face 2716 and receives ring.(see Figure 29).8th exposure segment 2728 can extend downwardly into the 9th aperture 2739, first rope 2720 can extend to the tenth from the 9th aperture 2739 across external component 2711 at the 9th aperture 2739 Aperture 2740.First rope 2720 can terminate in the second knot 2750, which can prevent the end of the first rope 2720 from wearing External component 2711 is crossed to be pulled.Thus, two ends of the first rope 2720 can anchor to external component 2711.

In some embodiments, footwear 2700 may include the second rope 2760.Second rope 2760 can be to be similar to first The swing pattern of rope 2720 passes through, except in 2712 China and foreign countries of footwear front area of footwear 2700.The first rope 2720 is also similar to, Second rope 2760 can extend through external component 2711 in multiple positions.For the second rope 2760 in the outside of footwear 2700 The given length extended between face 2715 and medial surface 2716, the second rope can extend through external component more than once 2711.In addition, external component 2711 may include multiple apertures at adjacent lateral side edge and the inner side edge of neighbouring external component 2711 Multiple apertures of edge.In order to show these opposite apertures, Figure 27 and Figure 28 show same reality with slightly different perspective Apply scheme.Figure 27 shows the footwear 2700 slightly rotated towards inside 2716 despite bottom view, so as to expose outside The exposure segment in aperture and the second rope 2760 at the outer ledge of portion's component 2711.Figure 28 shows towards lateral surface 2715 and omits The footwear 2700 of micro- rotation, so as to expose the aperture at the inside edge of external component 2711 and the exposure of the second rope 2760 Segment.

As shown in Figure 27, the second rope 2760 can be anchored at the first aperture 2781 by third knot 2755.Second rope 2760 just can extend to the second aperture 2782 in or on external component 2711 from the first aperture 2781, and the of the second rope 2760 One exposure segment 2761 can extend from second aperture 2782.First exposure segment 2761 extends to third aperture 2783, until the second rope 2760 in third aperture 2783 can enter external component 2711.Second rope 2760 can be to pass through outside Component 2711 extends to the 4th aperture 2784 or the 4th aperture 2784 is extended to above external component 2711.Second exposure segment 2762 can upwardly extend from the 4th aperture 2784 along the lateral surface 2715 of footwear 2700.Second exposure segment 2762 can be adjacent The lacing zone of nearly footwear 2700 is transitioned into third exposure segment 2763, and ring is received so as to form shoestring.(see Figure 30).

Third exposure segment 2763 extends to the 5th aperture 2785.Second rope 2760 can continue Figure 27, figure as follows The swing pattern shown in 28 and Figure 30.Second rope 2760 can enter external component 2711 at the 5th aperture 2785, pass through Left by the 6th aperture 2786, and second rope 2760 the 4th exposure segment 2764 extend to seven apertures in the human head mouth 3786 and Into the seven apertures in the human head mouth 3786.5th exposure segment 2765 (see Figure 28) can extend up to frenum area from octal mouth 2787 Domain and be transitioned into the 6th exposure segment 2766, so as to formed shoestring receive ring (see Figure 30).6th exposure segment 2766 can be with Return extends downwardly into the 9th aperture 2788, and the second rope 2760 can be to pass through external component 2711 (or in external component 2711 tops) extend to the tenth aperture 2789.7th exposure segment 2767 can be across the toe cap of the separation of external component 2711 Gap extension in region, and the second rope 2760 can be again introduced into external component 2711 at 11-holes mouth 2790.

Second rope 2760 can extend or on external component 2711 from 11-holes mouth 2790 across external component 2711 Fang Yanshen and can be left from the 12nd aperture 2791, and the 8th exposure segment 2768 can extend up to lacing zone and It is transitioned into the 9th exposure segment 2769, ring is received so as to form shoestring (see Figure 30).9th exposure segment 2769 extends to 13rd aperture 2792, wherein the second rope 2760 can enter external component 2711.Second rope 2760 can be from the 13rd aperture 2762 pass through external component 2711 or extend above external component 2711, and can be left from the 14th aperture 2793, In second rope 2760 the tenth exposure segment 2770 extend to the 15th aperture 2794.Second rope 2760 can be in the 15th aperture Enter external component 2711 at 2794 and the 16th aperture 2795 can be extended to pass through external component 2711 or in external structure 2711 top of part extends to the 16th aperture 2795 (see Figure 28).11st exposure segment 2771 of the second rope 2760 can be from the 16 apertures 2795 extend up to lacing zone and are transitioned into the 12nd exposure segment 2772, are received so as to form shoestring Ring.(see Figure 30).12nd exposure segment 2772 can extend downwardly into the tenth seven apertures in the human head mouth 2796, and the second rope 2760 can enter The tenth octal mouth 2797 is extended into the tenth seven apertures in the human head mouth 2796 and across external component 2711 or in external component 2711 Top extends to the tenth octal mouth 2797.In its end, the second rope 2760 can also include the 4th knot 2773, the 4th knot 2773 can prevent the second rope 2760 to be pulled across external component 2711, so as to which the end of the second rope 2760 is anchored to outside Component 2711.

Figure 29 is the vertical view that arrangement is passed through in the middle part of the footwear for showing the footwear 27 shown in Figure 27.Go out as shown in Figure 29 , the first rope can swing back and forth, and can extend to footwear 2700 alternately upwards across the bottom side of footwear 2700 Lateral surface and medial surface receive ring to form shoestring on the either side of lacing zone in footwear central region.

Figure 30 is to show that the footwear forepart of the footwear 2700 shown in Figure 27 and Figure 28 passes through the vertical view of arrangement.In order to illustrate Purpose, the label of Figure 30 has reduced compared with Figure 29.As shown in Figure 30, the second rope can be across the bottom of footwear 2700 Side is swung to and fro, and can extend to lateral surface and the medial surface of footwear 2700 alternately upwards in footwear front area Shoestring is formed on the either side of lacing zone and receives ring.

Although it have been described that the multiple embodiments of the present invention, but description is intended to be exemplary rather than restricted , and those of ordinary skill in the art will be apparent that, many more embodiments within the scope of the present invention and Embodiment is possible.Although showing and being discussed in this detailed description the possibility combination of many features in the accompanying drawings, The many other combinations for being disclosed feature are also possible.It is it will thus be appreciated that shown in the disclosure and/or discussion Any feature can be implemented together in any suitable combination.Therefore, in addition to equivalent with theirs according to appended claim Except object, the present invention is unrestricted.In addition, within the scope of the appended claims, various modifications may be made and changes.

Claims (21)

1. a kind of article of footwear, including；

Vamp is configured to receive foot；

Footwear sole construction, is fixedly attached to the bottom part of the vamp, and the footwear sole construction includes the outside of ground-engaging Component；And

First rope, is configured to define at least the first shoestring receiving ring and first rope extends through the footwear sole construction The external component of the ground-engaging；

The external component of wherein described ground-engaging has entirety, one piece construction；

Wherein described first rope includes first end and the second end；

The first end and the second end of wherein described first rope overlap each other in overlapping region；And

The first end and the second end of wherein described first rope are fixed in the overlapping region using stitching Each other.

2. article of footwear according to claim 1, wherein first rope is formed on the medial surface of the article of footwear First shoestring, which receives ring and the second shoestring is formed on the lateral surface of the article of footwear, receives ring.

3. article of footwear according to claim 2, wherein first rope is on the medial surface of the article of footwear Third shoestring is formed to receive ring and form the 4th shoestring receiving ring on the lateral surface of the article of footwear.

4. article of footwear according to claim 1, wherein at least part of first rope is attached to the vamp A part.

5. article of footwear according to claim 4, wherein first rope is attached to the vamp using stitching.

6. article of footwear according to claim 5, wherein neighbouring first shoestring of the first rope receives ring to utilize line Mark is attached to the vamp.

7. article of footwear according to claim 1, wherein the overlapping region, which forms first shoestring, receives ring extremely A few part.

8. article of footwear according to claim 1 further includes splayed rope arrangement, there are one the splayed rope arrangement tools Or multiple ropes, one or more of ropes form the first shoestring of the neighbouring footwear back of the body region arrangement in the first sides of the vamp Ring is received, and ring is received to extend downwardly into the sole knot along the first side of the vamp from first shoestring Structure, it is upward and right along the second side of the vamp across the external component of the ground-engaging of the footwear sole construction It is extended downwardly across the footwear back of the body region of the vamp, along the first side of the vamp to angle, in the vamp Lower section and upwardly extended along the second side of the vamp and in the second side of the vamp it is neighbouring Footwear back of the body region, which is formed, receives ring with first shoestring diagonally opposite the second shoestring receives ring.

9. article of footwear according to claim 1, wherein first rope extends through the external structure of the ground-engaging The footwear central region of part.

10. article of footwear according to claim 1, wherein first rope extends through the external structure of the ground-engaging The footwear front area of part.

11. a kind of article of footwear, including：

Vamp is configured to receive foot；

Footwear sole construction, is fixedly attached to the bottom part of the vamp, and the footwear sole construction includes the outside of ground-engaging Component；And

First rope is configured to define multiple shoestrings and receives ring, and the multiple shoestring receives ring to include at least in the vamp The first shoestring in first side receives ring and the second shoestring in the second side of the vamp to receive ring；

Wherein described first rope passes through the outer of the ground-engaging of the footwear sole construction from the first side of the vamp Portion's component extends to the second side of the vamp；

Wherein described first rope includes first end and the second end；

The first end and the second end of wherein described first rope overlap each other in overlapping region；

The overlapping region of wherein described first rope forms at least part that first shoestring receives ring；And

The first end and the second end of wherein described first rope are fixed in the overlapping region using stitching Each other.

12. article of footwear according to claim 11, wherein the multiple shoestring receives ring to be additionally included in the footwear Third shoestring in the first side of product receives ring and the 4th shoestring in the second side of the article of footwear Receive ring.

13. article of footwear according to claim 11, wherein first rope is extended through in two or more positions The external component of the ground-engaging.

14. article of footwear according to claim 11, wherein at least part of first rope is attached to the vamp A part.

15. a kind of article of footwear, including；

Vamp is configured to receive foot；

Footwear sole construction, is fixedly attached to the bottom part of the vamp, and the footwear sole construction includes the outside of ground-engaging Component；And

First rope is configured to form the first shoestring receiving ring on the medial surface of the vamp and in the outside of the vamp The second shoestring is formed on face and receives ring, first rope is in the outside of the vamp and the ground-engaging of the footwear sole construction The lateral surface of the vamp is extended between component from the medial surface of the vamp；

Second rope is configured to form third shoestring receiving ring on the medial surface of the vamp and in the vamp The 4th shoestring is formed on the lateral surface and receives ring, second rope passes through the sole knot from the medial surface of the vamp The external component of the ground-engaging of structure extends to the lateral surface of the vamp；And

At least one of wherein described first rope and the described second rope have splayed rope arrangement, form the of the vamp First shoestring of the neighbouring footwear back of the body region arrangement on one side receives ring, and receive ring along the vamp from first shoestring The first side extend downwardly into the footwear sole construction, across the external structure of the ground-engaging of the footwear sole construction Part, along the second side of the vamp upwards and diagonally across the footwear of vamp back of the body region, along the footwear The first side in face extends downwardly, and prolongs upwards below the vamp and along the second side of the vamp It stretches and neighbouring footwear back of the body region formation receives ring diagonal with first shoestring in the second side of the vamp The second opposite shoestring of ground receives ring.

16. article of footwear according to claim 15, wherein second rope includes first end and the second end；And

Wherein described second rope is included in the knot at the first end, and the structure causes to prevent described second to restrict across described The external component of ground-engaging is pulled.

17. article of footwear according to claim 16, wherein second rope is included in described the second of second rope Second knot of end, second knot are configured to prevent the external component of second rope across the ground-engaging from being drawn It is dynamic.

18. article of footwear according to claim 15, wherein second rope is extended through in two or more positions The external component of the ground-engaging.

19. article of footwear according to claim 15, wherein at least part of second rope is attached to the vamp A part.

20. article of footwear according to claim 19, wherein second rope is attached to the vamp using stitching.

21. article of footwear according to claim 20, wherein neighbouring first shoestring of the first rope receives ring to utilize Stitching is attached to the vamp.