CN107404962A - Midsole component and footwear outer bottom component with auxetic structure - Google Patents

Abstract

Disclosed herein is a kind of product (100) for the footwear sole construction (1000,103) for having and including midsole component (1022,122) and footwear outer bottom component.Footwear sole construction (1000,103) includes being arranged to one group of hole (1029,200,300,402,820) of the auxetic structure that permission sole is expanded in a manner of auxetic.This group of hole (1029,200,300,402,820) midsole component (1022 is extended through, and footwear outer bottom component and midsole component (1,022 122), 122) and footwear outer bottom component is all exposed to the outer surface (134,152 of footwear sole construction (1000,103), 172,620) on.

Description

Midsole component and footwear outer bottom component with auxetic structure

The cross reference of related application

The application is the part continuation application of following patent：U.S. Patent Application No. is 14/030,002, and the applying date is On September 18th, 2013, entitled " auxetic structure and the footwear (Auxetic with the sole with auxetic structure Structures and Footwear with Soles Having Auxetic Structures) ", in the whole of the patent Appearance is incorporated herein by reference.The application is related to following application：Co-pending U.S. Patent Application No. for _ _ _ _ _ _, application Day is on March 10th, 2015, entitled " to have footwear sole construction (the Sole Structure with the hole for being arranged to auxetic structure Holes Arranged in Auxetic Configuration) " (application attorney docket 51-4337), the entire disclosure of which It is incorporated herein by reference.The application is also related to following application：Co-pending U.S. Patent Application No. for _ _ _ _ _ _, application Day is on March 10th, 2015, entitled " to have multicompartment footwear sole construction (the Multi-Component Sole of auxetic structure Structure Having an Auxetic Configuration) " (application attorney docket 51-4338), in the whole of this application Appearance is incorporated herein by reference.

Background technology

The present embodiment relates in general to footwear product, and relates more specifically to the footwear system with vamp and footwear sole construction Product.

Footwear product generallys include two main elements：Vamp and footwear sole construction.Vamp can be by suturing or adhesively tying It is combined and is formed with being formed in footwear for the various materials in space that is comfortable and receiving pin securely.Footwear sole construction is fixed To the bottom of vamp and it is generally located between pin and ground.In many footwear products including sport footwear pattern, sole knot Structure usually includes inner sole, midsole and footwear outer bottom.

The content of the invention

On the one hand, a kind of footwear product includes footwear sole construction, and the footwear sole construction includes midsole component and at least one Footwear outer bottom component.Midsole component includes the first outer surface with recess.Footwear outer bottom component has the second outer surface.Recess quilt It is configured to accommodate footwear outer bottom component.The region of footwear sole construction be included in Part I in the first outer surface of midsole component and Part II in the second outer surface of footwear outer bottom component.The region includes one group of hole for being arranged to auxetic structure.Auxetic knot Structure extends to Part II incessantly from Part I.

On the other hand, a kind of footwear product includes footwear sole construction, and the footwear sole construction includes midsole component and at least one Individual footwear outer bottom component.Midsole component includes the first outer surface with recess.Footwear outer bottom component has the second outer surface.Recess It is configured as accommodating footwear outer bottom component.The region of footwear sole construction is included in Part I in the first outer surface and in the second appearance Part II in face.Region includes one group of hole for being arranged to auxetic structure.At least one hole in this group of hole is arranged on In one outer surface, and at least one hole in this group of hole is arranged in the second outer surface.First outer surface is relative to predetermined Material has the first coefficient of friction, wherein the second outer surface has the second coefficient of friction relative to predetermined material, and second rubs Wipe coefficient and be more than the first coefficient of friction.

On the other hand, a kind of footwear product includes footwear sole construction, and the footwear sole construction includes midsole component.Midsole group Part includes being arranged to multiple openings of auxetic structure.Multiple openings are included by the first sole portion, the second sole portion, the 3rd footwear The first opening that bottom point, the 4th sole portion, the 5th sole portion and the 6th sole portion are surrounded.First sole portion includes First protruding pattern element, the second sole portion include the second protruding pattern element, and the 3rd sole portion includes the 3rd raised flower Texel part, the 4th sole portion include the 4th protruding pattern element, the 5th sole portion include the 5th protruding pattern element and 6th sole portion includes the 6th protruding pattern element.

Based on consulting the following drawings and detailed description, other systems of embodiment, method, feature and advantage are for this area It will be for those of ordinary skill or will become obvious.All such spare systems, method, feature and advantage be intended to by It is included in this specification and present invention, is included in the range of embodiment, and is protected by following claims.

Brief description of the drawings

Embodiment may be better understood with description with reference to the following drawings.Part in accompanying drawing is not drawn necessarily to scale, But focus in the principle of explanation embodiment.In addition, in the accompanying drawings, identical reference is represented in different views Appropriate section.

Fig. 1 is the isometric view of the embodiment of footwear product；

Fig. 2 is the footwear of footwear sole construction for including being made up of insole assembly, midsole component and multiple footwear outer bottom components The exploded isometric view of the embodiment of product；

Fig. 3 is the bottom view of the embodiment of footwear product；

Fig. 4 is the bottom isometric view of the embodiment of footwear sole construction, includes the enlarged diagram of a part for footwear sole construction；

Fig. 5 is the bottom isometric view of the embodiment of footwear sole construction, includes the enlarged diagram of a part for footwear sole construction, The part of wherein footwear sole construction is being subjected to auxetic expansion；

Fig. 6 is the bottom isometric view of the embodiment of the footwear sole construction for the amplification longitudinal sectional view for including footwear sole construction, is wrapped Include the amplification longitudinal sectional view of footwear sole construction；

Fig. 7 is the exploded bottom isometric view of the embodiment for the footwear sole construction for including multiple footwear outer bottom components；

Fig. 8 is the bottom view of footwear sole construction, including extends through the region of footwear outer bottom component and midsole component and put Big view；

Fig. 9 is the schematic expanded view in the region shown in Fig. 8；And

Figure 10 is the bottom view of the embodiment of the footwear sole construction with the hole for being arranged to auxetic structure.

Embodiment

Fig. 1 is the isometric view of the embodiment of footwear product 100.In the exemplary embodiment, footwear product 100 has fortune The form of dynamic footwear.However, in other embodiments, the setting discussed herein for footwear product 100 can be incorporated into various In other kinds of footwear, include but is not limited to：Basketball shoes, hiking boots, Association football footwear, football boot, sport footwear, running shoe, instruction Practice footwear, olive sneakers, spike and other kinds of footwear.In addition, in certain embodiments, herein for footwear product 100 The setting discussed can be incorporated into the non-athletic related footwear of various other species, include but is not limited to：Slippers, sandals, height With footwear and Le Fu footwear (loafer).

For purposes of clarity, the feature described in detail below for discussing footwear product 100 (also referred to as product 100). It is understood, however, that other embodiments can include that product 100 described herein and shown in the accompanying drawings can be shared Some and may whole features corresponding footwear product (for example, the right footwear system when footwear 100 are left footwear products Product).

Embodiment can be characterized by various directionality adjectives and reference section.These directions and reference section can be with Contribute to the part of description footwear product.In addition, these directions and reference section can be used for describing the subgroup of footwear product Part (for example, insole assembly, midsole component, footwear outer bottom component, direction and/or part of vamp or any other component).

For the sake of consistent and be convenient, through the embodiment of the embodiment corresponding to diagram, direction has been used Property adjective.As through the detailed description and in the claims used term " longitudinal direction " refer to along component (for example, Vamp or sole assembly) length extension direction.In some cases, longitudinal direction can extend from the forefoot portion of component To heel part.In addition, as through the detailed description and used term " transverse direction " refers to along component in the claims Width extension direction.In other words, horizontal direction can extend between the inner side and outer side of component.In addition, such as run through The embodiment and used term " vertical " refers to generally perpendicular to horizontal and vertical direction in the claims Direction.For example, in the case where product is laid flat on the ground, vertical direction can upwardly extend from ground.In addition, term Close to a part for pin when " inside " refers to product close to the setting of the inside of product or when wearing article.Similarly, term is " outer Portion " refers to inside of the product away from product or the part away from pin setting.Thus, for example, the inner surface of component is configured to Than component outer surface closer to the inside of product.The embodiment using these directionality adjectives come describe product and The various assemblies of product, including vamp, midsole structure and/or outsole structure.

Product 100 can be characterized by multiple different regions or part.For example, product 100 can include forefoot Point, middle pin part, heel part and ankle portion.In addition, the component of product 100 can equally include corresponding part.With reference to Fig. 1, product 100 can be divided into forefoot portion 10, middle pin part 12 and heel part 14.Forefoot portion 10 substantially can be with toe It is associated with the joint of connection metatarsal and phalanx.Middle pin part 12 substantially can be associated with the arch of pin.Similarly, heel portion Points 14 substantially can be associated with the heel (including calcaneum) of pin.Product 100 can also include ankle portion 15, and (it can also be by Referred to as cuff part).In addition, product 100 can include outside 16 and inner side 18.Especially, outside 16 and inner side 18 can be with It is the opposite side of product 100.In addition, outside 16 and inner side 18 can extend through forefoot portion 10, middle pin part 12, heel portion Divide 14 and ankle portion 15.

Fig. 2 shows the exploded isometric view of the embodiment of footwear product 100.Fig. 1-2 shows each of footwear product 100 Kind component, including vamp 102 and footwear sole construction 103.

Generally, vamp 102 can be any kind of vamp.Especially, vamp 102 can have any design, shape, Size and/or color.For example, in the embodiment that product 100 is basketball shoes, vamp 102 can be shaped as to carry ankle For the high side vamp of height support.In the embodiment that product 100 is running shoe, vamp 102 can be low shoes face.

In certain embodiments, vamp 102 includes providing the opening of the entrance in the internal cavities that pin enters vamp 102 114.In certain embodiments, vamp 102 can also include providing the buffering of instep and the tongue (not shown) of support across pin. Some embodiments can include fastening and set, and include but is not limited to：In shoestring, tether, belt, button, slide fastener and this area The known any other setting for being used to fasten product.In certain embodiments, shoestring 125 can be in the fastening zone of vamp 102 Applied in domain.

Some embodiments can include the vamp underfoot just extended, so as to provide 360 degree of coverings in some regions of pin. However, other embodiment need not necessarily include the vamp of underfooting side's extension.In other embodiments, for example, vamp can have With footwear sole construction and/or the lower periphery of socks pad connection.

Vamp can be formed by the different manufacturing technologies for producing various Instep structure for shoes.For example, in certain embodiments, Vamp can have braiding structure, knitting (for example, warp knit) structure or some other braiding structures.In the exemplary embodiment, Vamp 102 can be knitting vamp.

In certain embodiments, footwear sole construction 103 is configured to product 100 and provides attachment frictional force (traction).In addition to attachment frictional force is provided, when walking, run or other Ambulatory Activities during pin and ground it Between when compressing, footwear sole construction 103 can weaken ground reaction force.The construction of footwear sole construction 103 can be in different embodiments Middle significant changes, with including various routines or offbeat form.In some cases, the construction of footwear sole construction 103 can basis The ground of one or more types that footwear sole construction 103 can use configures.The example on ground includes but is not limited to：Natural grass Skin, artificial turf, soil, hardwood flooring and other surfaces.

Footwear sole construction 103 is fixed to vamp 102 and extended when wearing article 100 between pin and ground, not In same embodiment, footwear sole construction 103 can include different components.In the exemplary embodiment shown in Fig. 1-2, sole knot Structure 103 can include insole assembly 120, midsole component 122 and multiple footwear outer bottom components 124.In some cases, these One or more of component can be optional.

Referring now to Figure 2, in certain embodiments, insole assembly 120 can be configurable for the internal layer of midsole. For example, as discussed in further detail below, insole assembly 120 can be integrated or be received into the one of midsole component 122 In part.However, in other embodiments, insole assembly 120 may be used as inner sole layer and/or as the how precious layer of scholar (strobel layer).Therefore, at least some embodiments, in order to footwear sole construction 103 is fixed into vamp 102, inner sole Component 120 can be connected the bottom 104 that (for example, suture or glued) arrives vamp 102.

Insole assembly 120 can have inner surface 132 and outer surface 134.Inner surface 132 can be substantially directed towards Vamp 102.Outer surface 134 can substantially be directed towards midsole component 122.In addition, peripheral sidewall surface 136 can including Extend between surface 132 and outer surface 134.

Midsole component 122 can be configured to supply buffering, damping, energy feedback, support and other possible works With.Therefore, midsole component 122 can have provides structure and the geometry of support for product 100.Specifically, midsole Component 122 can be seen as with bottom 140 and sidewall sections 142.Sidewall sections 142 can surround midsole component 122 Whole periphery 144 extends.As shown in figure 1, sidewall sections 142 can partly wrap up the side of product 100 with along the bottom of pin Portion provides increased support.

Midsole component 122 may further include inner surface 150 and outer surface 152.Inner surface 150 can be with general orientation For towards vamp 102, and outer surface 152 can be outwardly directed.In addition, in the exemplary embodiment, midsole component 122 includes The central recess 148 being arranged in inner surface 150.The size of central recess 148 can substantially be arranged and configured to accommodate footwear Interior bottom component 120.

In certain embodiments, midsole component 122 can include multiple holes 200, and wherein at least some hole can extend Through the whole thickness of midsole component 122.In the exemplary embodiment illustrated in fig. 2, some in multiple holes 200 are at center It is visible in recess 148.

In various embodiments, midsole component 122 can generally include the various settings associated with midsole.Example Such as, in one embodiment, midsole component can be formed by polymer foams, the polymer foams walking, Weaken ground reaction force (i.e., there is provided buffering) during running and other Ambulatory Activities.In various embodiments, midsole group Part can also include the chamber, plate, regulation for for example further weakening the fluid filling of the motion of power, enhancing stability or influence pin Device or other elements.

Fig. 3 shows the bottom view of footwear sole construction 103.As Figure 2-3, multiple footwear outer bottom components 124 include four Different footwear outer bottom components.Specifically, footwear sole construction 103 includes the first footwear outer bottom component 160, the second footwear outer bottom component 162, the Three footwear outer bottom components 164 and the 4th footwear outer bottom component 166.Although exemplary embodiment includes four different footwear outer bottom components, But other embodiment can include the footwear outer bottom component of any other quantity.In another embodiment, for example, there may be Only single footwear outer bottom component.In another embodiment, only two footwear outer bottom components can be used.In another embodiment, Only three footwear outer bottom components can be used.In other embodiments, five or more footwear outer bottom components can be used.

Generally, footwear outer bottom component can be configured as earthing component.In certain embodiments, footwear outer bottom component can include The property associated with footwear outer bottom, such as durability, wearability and increased attachment frictional force.In other embodiments, outside footwear Bottom component can include the property associated with midsole, including buffering, intensity and support.In the exemplary embodiment, it is multiple Footwear outer bottom component 124 can be configured as the component of outsole shape, and it strengthens and the attachment on ground while wearability is kept Frictional force.

In various embodiments, the position of one or more footwear outer bottom components can change.In certain embodiments, one Individual or multiple footwear outer bottom components can be arranged in the forefoot portion of footwear sole construction.In other embodiments, it is one or more Footwear outer bottom component can be arranged in the middle pin part of footwear sole construction.In other embodiments, one or more footwear outer bottom structures Part can be arranged in the heel part of footwear sole construction.In the exemplary embodiment, the first footwear outer bottom component 160 and the second footwear Outsole member 162 can be arranged in the forefoot portion 10 of footwear sole construction 103.More specifically, the first footwear outer bottom component 160 can To be arranged on the inner side 18 of forefoot portion 10, and the second footwear outer bottom component 162 can be arranged on the outer of forefoot portion 10 On side 16.In addition, in the exemplary embodiment, the 3rd footwear outer bottom component 164 and the 4th footwear outer bottom component 166 can be arranged on In the heel part 14 of footwear sole construction 103.More specifically, the 3rd footwear outer bottom component 164 can be arranged on outside 16, and 4th footwear outer bottom component 166 can be arranged on inner side 18.

Further it can be seen that the first footwear outer bottom component 160 and the second footwear outer bottom component 162 are in forefoot portion 10 Center is spaced apart from each other, and the 3rd footwear outer bottom component 164 and the 4th footwear outer bottom component 166 at the center of heel part 14 to each other Separate.The example arrangement provides increased ground contact for footwear outer bottom component in the zone during various circumscribed and inscribe, To strengthen attachment frictional force during these motions.

The size of different footwear outer bottom components can change.In the exemplary embodiment, the first footwear outer bottom component 160 can be with It is footwear outer bottom component maximum in multiple footwear outer bottom components 124.In addition, the second footwear outer bottom component 162 can be substantially less than first Footwear outer bottom component 160, so as to more increase compared to outside 16 in forefoot portion 10 on the inner side 18 of footwear sole construction 103 Attachment frictional force.At heel part 14, the 3rd footwear outer bottom component 164 and the 4th footwear outer bottom component 166 are along footwear sole construction 103 Back edge 109 be all most wide, and gradually somewhat narrow towards middle pin part 12.

Referring to Fig. 2 and 3, it can be seen that the first footwear outer bottom component 160 has inner surface 170 and outer surface 172.Inner surface 170 can substantially be configured to against midsole component 122.Outer surface 172 can face out and can be earthed surface.For Clear purpose, inner surface and the outer surface of the first footwear outer bottom component 160 are only indicated in Fig. 2-3, it is appreciated, however, that , remaining footwear outer bottom component equally can be including with the corresponding inner surface being similarly oriented with midsole component 122 and outside Surface.

In the exemplary embodiment, insole assembly 120 can be arranged on the central recess 148 of midsole component 122 It is interior.More specifically, the outer surface 134 of insole assembly 120 may be oriented to the inner surface 150 towards midsole component 122 And it is in contact with it.In addition, in some cases, peripheral sidewall surface 136 can also contact interior table along inner fovea part side wall 149 Face 150.In addition, multiple footwear outer bottom components 124 can be configured to the outer surface 152 against midsole component 122.For example, the The inner surface 170 of one footwear outer bottom component 160 towards the outer surface 152 of midsole component 122 and can be in contact with it.At some In embodiment, upon assembly, midsole component 122 and insole assembly 120 can include compound midsole component or Double-layer shoes Middle bottom component.

In various embodiments, vamp 102 and footwear sole construction 103 can connect in a variety of ways.In some embodiments In, vamp 102 can be for example using adhesive or by being threadably attached to insole assembly 120.In other embodiments, vamp 102 for example can be connected to midsole component 122 along sidewall sections 142.In other embodiments, vamp 102 can be with footwear Both connections of interior bottom component 120 and midsole component 122.In addition, these components can be used to incite somebody to action using as known in the art Any method that sole assembly is connected with vamp connects, including various upper stretchings (lasting) technologies and technique are (for example, set last carving (board lasting), delasting (slip lasting) etc.).

In various embodiments, the attachment configuration of the various assemblies of product 100 can change.For example, in some implementations In example, insole assembly 120 can be bonded or be otherwise attach to midsole component 122.Such bonding or attachment It can be realized, included but is not limited to using any of method of the component for bonding footwear product：Adhesive, film, Band, nail, suture or other method.In some other embodiments, it is anticipated that insole assembly 120 can not be glued Midsole component 122 is closed or be attached to, but can be free floating.In at least some embodiments, insole assembly 120 Can be with the frictional fit of central recess 148 of midsole component 122.

Similarly, footwear outer bottom component 124 can be bonded or be otherwise attach to midsole component 122.It is such Bonding or attachment can be realized using any of method of the component for bonding footwear product, include but is not limited to： Adhesive, film, band, nail, suture or other method.

It is contemplated that at least some embodiments, in forming process, insole assembly 120, midsole component 122 and/or footwear outer bottom component 124 in two or more can be formed and/or be bonded together.For example, in some implementations In example, once forming midsole component 122, insole assembly 120 can be molded in central recess 148.

Embodiment can include the setting for promoting expansion and/or adaptability of the footwear sole construction during dynamic motion.One In a little embodiments, footwear sole construction can be configured with auxetic structure.Especially, the one or more assemblies of footwear sole construction can energy Enough it is subjected to auxetic motion (for example, expansion and/or contraction).

As Figure 1-5 with it is elaborated further below, footwear sole construction 103 has auxetic structure or construction.Comprising The footwear sole construction of auxetic structure is described in following application：U.S. Patent Application No. is 14/030,002, and the applying date is 2013 9 The moon 18, and entitled " auxetic structure and footwear (the Auxetic Structures and with the sole with auxetic structure Footwear with Soles Having Auxetic Structure) " (" auxetic structure application "), in the whole of this application Appearance is incorporated herein by reference.

As described in auxetic structure application, auxetic materials have negative Poisson's ratio so that when they are in first party When being in upwards under tension force, increase in its size second direction orthogonal or vertical in a first direction and with first direction.Auxetic This property of material is shown in figures 4 and 5.

As shown in figure 3, footwear sole construction 103 can include multiple holes 300.As it is used herein, term " hole " refers to group Any hollow region or sunk area in part.In some cases, hole can be through hole, and its mesopore is relative at two of component Extend between surface.In other cases, hole can be blind hole, its mesopore may not extend across the whole thickness of component and Therefore can only be to open in side.In addition, as discussed in further detail below, component can utilize through hole and blind hole Combination.In addition, term " hole " in some cases can be with " mouth " or " recess " used interchangeably.

In the region including one or more holes, footwear sole construction 103 can further with multiple discrete sole portions 320 is associated.Specifically, sole portion 320 is included in the part of the footwear sole construction 103 extended between multiple holes 300.Can also It is seen that multiple holes 300 extend between sole portion 320.It is understood, therefore, that each hole can be multiple Sole portion is surrounded so that the border in each hole can be limited by the edge of sole portion.Hole (or mouth) and sole portion Between this be arranged in auxetic structure application be discussed in further detail.

As shown in figure 3, multiple holes 300 can extend through most of midsole component 122.In certain embodiments, it is more Individual hole 300 can extend through the forefoot portion 10, middle pin part 12 and heel part 14 of midsole component 122.In other realities Apply in example, multiple holes 300 can not extend across each in these parts.

Multiple holes 300 can also extend through multiple footwear outer bottom components 124.In the exemplary embodiment, the first footwear outer bottom Each in component 160, the second footwear outer bottom component 162, the 3rd footwear outer bottom component 164 and the 4th footwear outer bottom component 166 includes Two or more holes.However, in other embodiments, one or more footwear outer bottom components can not include any hole.

In various embodiments, the geometry in one or more holes can change.Disclosed in auxetic structure application It can be used for the example of the different geometries of auxetic footwear sole construction.In addition, embodiment can also utilize any other geometry Shape, such as utilize the parallelogram geometry or other polygon with the style for being arranged as sole offer auxetic structure The sole portion of shape geometry.In the exemplary embodiment, each hole in multiple holes 300 has asterism geometric form Shape, including three arms or point extended from common center.

The geometry of one or more sole portions can also change.Disclose and can be used in auxetic structure application The example of the different geometries of auxetic footwear sole construction.It is understood that the geometry of sole portion can be by auxetic The geometry in the hole in style determines that vice versa.In the exemplary embodiment, each sole portion has approximation three Angular geometry.

Multiple holes 300 can be arranged on footwear sole construction 103 with auxetic style or auxetic structure.In other words, Duo Gekong 300 can by allow these components be subjected to such as expansion or shrinkage auxetic motion in a manner of be arranged in midsole component 122 and/ Or on footwear outer bottom component 124.Figure 4 and 5 show the example of the auxetic structure due to multiple holes 300 and the expansion of caused auxetic. Initially, in Fig. 4, footwear sole construction 103 is in non-tensioning state.In this state, multiple holes 300 have the area not being tensioned Domain.For illustrative purposes, the region 400 of midsole component 122 is illustrate only, wherein region 400 includes the subset in hole 402.

Opened when applying along the exemplary linear direction 410 (for example, longitudinal direction) shown in Fig. 5 across footwear sole construction 103 During power, footwear sole construction 103 is subjected to auxetic expansion.That is, footwear sole construction 103 is along direction 410 and perpendicular to direction Expanded in 410 second direction 412.In FIG. 5, it can be seen that with the size increase in hole 402, representative area 400 is in side All expanded on to 410 and direction 412.

Fig. 6 shows the bottom isometric view of footwear sole construction 103, including midsole component 122 and two footwear outer bottom components Amplification view.Fig. 7 shows the exploded bottom isometric view of the embodiment of midsole component 122 and footwear outer bottom component 124. With reference to figure 6-7, each footwear outer bottom component can be associated with the corresponding recess in the outer surface 152 of midsole component 122. Specifically, midsole component 122 includes being used for the first recess 600 for receiving the first footwear outer bottom component 160；For receiving the second footwear Second recess 602 of outsole member 162；For receiving the 3rd recess 604 of the 3rd footwear outer bottom component 164 and for receiving the 4th recess 606 of four footwear outer bottom components 166.The size and dimension of each recess can be configured to be adapted to outside corresponding footwear Bottom component.Thus, for example, the second recess 602 has outer concave edges 610, the outer concave edges 610 have and the second footwear outer bottom The identical shape of outward flange 612 of component 162.

In certain embodiments, footwear outer bottom component can flush with the outer surface of midsole component.In exemplary embodiment In, each in footwear outer bottom component 124 can flush with midsole component 122.For example, as shown in fig. 6, the first footwear outer bottom structure The outer surface 172 of part 160 can flush with the outer surface 152 of midsole component 122.Similarly, the 4th footwear outer bottom component 166 Outer surface 620 can flush with outer surface 152.In a similar way, the second footwear outer bottom component 162 and the 3rd footwear outer bottom component 164 all can flush with midsole component 122.This flush arrangement can be by making the thickness of each footwear outer bottom component approximate Realized equal to the depth for receiving recess.For example, as shown in Figure 6, it can be seen that, the first footwear outer bottom component 160 has approximation etc. In the thickness 630 of the depth 632 (referring to Fig. 7) of the first recess 600.In other embodiments, one or more footwear outer bottom components It can stretch out from recess.In other embodiments, the outer surface of footwear outer bottom component can be relative to midsole component 122 Outer surface 152 is recessed.

As shown in fig. 6, midsole component 122 substantially can be thicker than each footwear outer bottom component.For example, midsole component 122 have the thickness 631 associated with the thickness of the bottom 140 of midsole component 122.In this exemplary embodiment, thickness 631 are more than thickness 630 so that each footwear outer bottom component is extended in the recess of midsole component 122, but does not extend across footwear The whole thickness of middle bottom component 122.This arrangement ensures that midsole component 122 can be in footwear sole construction 103 and footwear outer bottom component Buffering and support are provided in associated part.

In various embodiments, the material of footwear outer bottom component and/or physical property can change.In some embodiments In, when compared with midsole component, footwear outer bottom component can have relatively high coefficient of friction.For example, in exemplary implementation In example, the first footwear outer bottom component 160 can have first with predetermined material (for example, timber, laminate, pitch, concrete etc.) Coefficient of friction, and midsole component 122 can have the second coefficient of friction with identical predetermined material.In some embodiments In, the first coefficient of friction is different from the second coefficient of friction.In the exemplary embodiment, the first coefficient of friction is more than the second friction system Number so that compared with midsole component 122, the first footwear outer bottom component 160 provide with the increased attachment frictional force of predetermined material (or Earth-grasping force).In at least some embodiments, predetermined material can be associated with a type of ground.For example, predetermined material can To be the timber associated with the timber floor in basketball court.In other embodiments, predetermined material can be can also with it is some The associated laminated material in the place of type.In other embodiments, predetermined material can be pitch.In other embodiments, Predetermined material can be concrete.

Similarly, in certain embodiments, each in remaining footwear outer bottom component can also have than midsole component 122 higher coefficient of friction (relative to given ground).This arrangement can allow user to pass through in footwear outer bottom component At least one be engaged with ground to brake or slow down.It is understood that in other embodiments, the first footwear outer bottom component 160 can have the coefficient of friction of the coefficient of friction equal to or less than midsole component 122.

It will be appreciated that coefficient of friction can change according to environmental condition such as temperature, speed.In addition, for Dry and wet condition, coefficient of friction can be different.As it is used herein, the respectively He of the first footwear outer bottom component 160 Midsole component 122 and the first coefficient of friction and the second coefficient of friction that limit can be dryings at standard temperature and pressure Coefficient of friction.

Increase with ground friction can by using the material with higher coefficient of friction and/or by provide enhancing with The surface texture of the earth-grasping force on ground is realized.Such structure can include pattern element (tread element), such as Ridge, hemispherical projections, the pattern element of cylindrical projections and other species.In the exemplary embodiment, the first footwear outer bottom structure Part 160 is provided with multiple ridge elements 650, its can in Fig. 8-9 best seen from.By contrast, it can be seen that midsole component 122 outer surface 152 has the surface of relative smooth.

In various embodiments, the density of footwear outer bottom component and/or midsole component can change.In some embodiments In, footwear outer bottom component can have the density higher than midsole component, so as to allow increase footwear outer bottom component durability and Wearability.However, in other embodiments, the density of footwear outer bottom component can be equal to the density of midsole component, or can be with Less than the density of midsole component.

Footwear outer bottom component can be manufactured by a variety of materials.Exemplary materials include but is not limited to：Rubber (example Such as, carbon rubber or bipeltate (blown rubber)), polymer, thermoplastic (for example, thermoplastic polyurethane) and Possible other materials.By contrast, midsole component generally can by polyurethane, polyurethane foam, other species foam And possible other materials manufacture.It is understood that the type for footwear outer bottom component and the material of midsole component It can require to select with the various factors of required performance characteristic according to including manufacture.In the exemplary embodiment, can select For the suitable material of footwear outer bottom component 124 and midsole component 122 with ensure footwear outer bottom component 124 have than midsole component 122 bigger coefficient of friction, particularly when these components and hardwood surface, laminate surface, pitch and footwear 100 are the most frequently used Other surfaces contact when.

Fig. 8 and 9 shows the region 800 of the footwear sole construction 103 in non-tensioning state (Fig. 8) and tensioning state (Fig. 9). Therefore, when footwear sole construction 103 is subjected to auxetic expansion due to tension force 802, it can be seen that open (for example, opening in multiple holes 200 Or cross-sectional area increase).It is clear that region 800 is in tension direction 802 and perpendicular to tension direction 802 from Fig. 9 Expanded on direction 803.

The auxetic behavior that embodiment can include being used to ensure footwear sole construction 103 is uniform --- in addition across different piece or Material --- setting.In certain embodiments, the opening in one or more footwear outer bottom components can with midsole component Register.

With reference to figure 8, the region 800 of footwear sole construction 103 includes the Part I 810 and the of the outer surface of footwear sole construction 103 Two parts 812.Specifically, Part I 810 is a part for the outer surface 172 of the first outsole members 160, and Part II 812 be a part for the outer surface 152 of midsole component 122.Region 800 is further comprising one group of hole for being arranged to auxetic structure 820, this group of hole 820 is the subset in multiple holes 200.

As shown in figure 8, the auxetic structure in this group of hole 820 is prolonged incessantly or continuously from the Part I 810 in region 800 Reach Part II 812.In other words, the auxetic structure in this group of hole 820 is in the first footwear outer bottom component 160 and midsole component Extend incessantly between 122.As it is used herein, if the style in whole region mesopore is (including the shape in hole, relative Spacing between orientation and Kong Yukong) be not change significantly in, then auxetic structure continuously or incessantly extends through region.It is this Uninterrupted or continuous structure is important, because the auxetic structure in hole 820 or the interruption of style or interruption may cause it is expected Auxetic is moved or dynamic (dynamical) change or deviation.

The auxetic between Part I 810 and Part II 812 is illustrated by considering several representational holes The combination of structure or pattern.It can be seen that, the first hole 830 in one group of hole 820 is arranged on the first footwear outer bottom component in fig. 8 In 160 Part I 810.The second hole 832 in one group of hole 820 is arranged on the Part II 812 of midsole component 122 In.First hole 830 and the second hole 832 are all surrounded by the adjacent hole of six sole portions and six.In addition, the first hole 830 and Two holes 832 are similar relative to the orientation of footwear sole construction 103.In addition, the style around six adjacent holes in the first hole 830 Style and spacing around six adjacent holes in the second hole 832 are similar to spacing.In addition, the first hole 830 and the second hole 832 With substantially similar shape, specially asterism shape.

Even in Part I 810 and Part II 812 (for example, in the first footwear outer bottom component 160 and midsole component Between 122) boundary, the continuity of auxetic structure occurs.For example, the 3rd hole 834 extends through Part I 810 and second Part 812.3rd hole 834 includes the first arm 840, the second arm 842 and the 3rd arm 844.In addition, the 3rd hole 834 includes the first hole Part 850, first bore portion 850 include the second arm 842 and a part for the 3rd arm 844 and the first arm 840.3rd hole 834 also include the second bore portion 852, and second bore portion 852 includes the end of the first arm 840.As shown in figure 8, the first hole portion Divide 850 to be arranged in Part II 812 and the second bore portion 852 with being arranged in Part I 810 is continuous.

In at least some embodiments, the edge of footwear outer bottom component can correspond to the auxetic structure in hole.Especially, outside footwear One or more edges of bottom component can align with the direction of the orientation definition by two or more holes.

As shown in figure 8, for example, the edge 860 of the first footwear outer bottom component 160 can be with the orientation definition by multiple holes 200 Direction alignment.Specifically, multiple holes can be disposed such that each hole includes being oriented in what is characterized by first axle 870 Arm in direction.For example, hole 832 and hole 838 each have the arm oriented along first axle 870.In addition, multiple holes 200 In each hole have along or parallel to first axle 870 orient arm.In the exemplary embodiment, edge 860 can be with It is parallel with first axle 870.In a similar way, in certain embodiments, each edge of each footwear outer bottom component can It is substantially aligned with the direction (that is, the direction limited by each arm in hole) with the orientation definition by hole.In certain embodiments, Some edges can align with the direction limited by hole, and other edges can not align with these directions.By by each The edge of footwear outer bottom component aligns with the direction limited by auxetic structure, and footwear outer bottom component can be not disturb the auxetic knot of sole The mode of structure is placed on footwear sole construction 103.

Figure 10 shows the bottom view of another embodiment of footwear sole construction 1000.With reference to figure 10, footwear sole construction 1000 Insole assembly (invisible), midsole component 1022 and multiple footwear outer bottom components 1024 can be included.It is every in these components One can be with corresponding component (i.e. insole assembly 120, midsole component 122 and the multiple footwear outer bottom components of preceding embodiment 124) similar setting is shared.

Footwear outer bottom component 1024 can be configured in each opening position on the bottom 1030 of midsole component 1022.Example Such as, exemplary embodiment includes being arranged on the first footwear outer bottom component 1040 at the fore-end 1102 of midsole component 1022. Second footwear outer bottom component 1042 is arranged in the forefoot portion 1104 of midsole component 1022.In addition, the 3rd footwear outer bottom component 1044 and the 4th footwear outer bottom component 1046 be arranged in the heel part 1106 of midsole component 1022.With shown in Fig. 1-9 Embodiment is compared, and these exemplary positions can provide the attachment frictional force style of replacement.Specifically, Figure 10 embodiment includes First footwear outer bottom component 1040 and the 3rd footwear outer bottom component 1044, the first footwear outer bottom component 1040 is in the whole of footwear sole construction 1000 The attachment frictional force of enhancing is provided in individual forward edge, the 3rd footwear outer bottom component 1044 provides the enhancing at the circular position of neighbouring pin Attachment frictional force.

It will be appreciated that in other embodiments, the position of one or more footwear outer bottom components can change.At some In the case of, position can be selected according to the required position on footwear sole construction, to strengthen attachment frictional force.In other situations Under, position might be chosen such that to be avoided doing in some regions part (such as middle pin part 1108 of midsole component 1022) Disturb the auxetic expansion of midsole component.

In various embodiments, the shape of footwear outer bottom component can change.For example, exemplary embodiment includes covering completely The footwear outer bottom component of lid midsole component 1022 is (for example, the first footwear outer bottom component 1040, the 3rd footwear outer bottom component 1044 and the 4th Footwear outer bottom component 1046).Similarly, exemplary embodiment is included outside the footwear in the hole of the part with exposure midsole component 1022 Bottom component (e.g., including second footwear outer bottom component 1042 in hole 1043).In addition, exemplary embodiment is described with substantially right Should be in the footwear outer bottom component of the style of the opening on midsole component 1022 or the style of arrangement or arrangement.

Midsole component 1022 is configured with the multiple holes 1029 for being arranged to auxetic structure.In Figure 10 exemplary embodiment In, multiple holes 1029 can one or more aspects be similar to Fig. 1-9 shown in embodiment hole.Especially, a some holes can To be through hole, and other holes can be blind hole.Similarly, at least two different holes in multiple holes 1029 can be in open-mouth ruler It is different on very little or cross-sectional area.Such as in previous embodiment, arrangement of the hole in whole midsole component 1022 can To be selected to realize the required auxetic property of footwear sole construction 1000.

Embodiment can include being used for the setting for strengthening the attachment frictional force on the bottom or lower surface of footwear sole construction.One In a little embodiments, footwear sole construction can be provided with one or more pattern elements.As it is used herein, term " pattern element " Refer to extend outward to ground-engaging on the earthed surface of footwear sole construction and the structure of increased attachment frictional force is provided.

As shown in Figure 10, footwear sole construction 1000 has earthed surface 1002, and the earthed surface 1002 is by midsole component 1022 and multiple footwear outer bottom components 1024 outmost surface composition.Earthed surface 1002 can also include multiple protruding pattern elements 1010。

Pattern element 1010 can be associated with the sole portion of midsole component 1022.For example, the first pattern element 1011 it is big show the first sole portion 1061 centered on.In the exemplary embodiment, most of sole portion can include correlation The pattern element of connection.In addition, pattern element is arranged to surrounds each hole in a manner of similar to sole member.For example, the One hole 1071 is by the first sole portion 1061, the second sole portion 1062, the 3rd sole portion 1063, the 4th sole portion 1064th, the 5th sole portion 1065 and the 6th sole portion 1066 are surrounded.Each sole portion has corresponding pattern element, So that the second pattern element 1012, the 3rd pattern element 1013, the 4th pattern element 1014, the 5th pattern element 1015 and the 6th Pattern element 1016 is respectively set at the second sole portion 1062, the 3rd sole portion 1063, the 4th sole portion 1064, In five sole portions 1065 and the 6th sole portion 1066.It is understood, therefore, that when each sole portion is swollen in auxetic During swollen lower rotation, pattern element also rotates, so as to the increase during expansion and the frictional resistance on ground.

In various embodiments, the geometry of pattern element can change.Exemplary shape includes but is not limited to：Three It is angular geometry, rectangular geometry, polygon geometry, circular geometry, hemispherical geometry, non-linear several The geometry of what shape, random geometry and/or any other species.In Figure 10 exemplary embodiment, decorative pattern Element 1010 has the triangle geometry shape corresponding with the external boundary geometry of sole portion (for example, the 7th sole part 1067 triangle border is divided to match with the corresponding triangle geometry shape of the 7th pattern element 1017).

Each protruding pattern element of pattern element 1010 can be from the convex outer surfaces or protrusion of footwear sole construction 1000. Therefore, each protruding pattern element can form the prism-like structures extended from footwear sole construction 1000.

Although it have been described that various embodiments, but description be intended to it is exemplary rather than restricted and right Be evident that for those of ordinary skill in the art, more embodiments and embodiment party in the range of embodiment Formula is possible.Any feature of any embodiment can combine with any other feature in any other embodiment or element Using or substitute any other feature or element in any other embodiment, unless explicitly limited.Therefore, except in view of appended Outside claim and its equivalent, embodiment is unrestricted.Moreover, it can carry out within the scope of the appended claims various Modifications and variations.

Claims (20)

1. a kind of footwear product, it is characterised in that the footwear product includes：

Footwear sole construction, the footwear sole construction include midsole component and at least one footwear outer bottom component；

The midsole component includes the first outer surface with recess；

The footwear outer bottom component has the second outer surface；

Wherein described recess is configured as accommodating the footwear outer bottom component；

The footwear sole construction includes Part I and the footwear outer bottom in first outer surface of the midsole component The region of Part II in second outer surface of component；

The region includes one group of hole of be arranged to auxetic structure；And

Wherein described auxetic structure extends to the Part II incessantly from the Part I.

2. footwear product according to claim 1, it is characterised in that opened when applying in a first direction across the region During power, the region can be subjected to auxetic expansion, wherein during the auxetic expands, the region in the first direction and Expanded in second direction, the second direction is perpendicular to the first direction.

3. footwear product according to claim 1, it is characterised in that one group of hole is included in the Part I First hole and the second hole in the Part II, wherein first hole and second hole are of similar shape.

4. footwear product according to claim 3, it is characterised in that one group of hole includes having in first appearance 3rd hole of the first bore portion in face and the second bore portion in second outer surface.

5. footwear product according to claim 1, it is characterised in that the midsole component is than the footwear outer bottom component more It is thick.

6. footwear product according to claim 1, it is characterised in that before multiple holes extend through the midsole component Pin part, middle pin part and heel part, the multiple hole includes one group of hole, and wherein the multiple hole is arranged to Auxetic structure.

7. footwear product according to claim 1, it is characterised in that the footwear sole construction includes at least two single footwear Outsole member.

8. footwear product according to claim 1, it is characterised in that the footwear sole construction includes four single footwear outer bottoms Component.

9. footwear product according to claim 1, it is characterised in that the footwear outer bottom component has the first coefficient of friction, And the midsole component has the second coefficient of friction, wherein first coefficient of friction is more than second coefficient of friction, And wherein described first coefficient of friction and second coefficient of friction are relative to common surface to determine.

10. a kind of footwear product, it is characterised in that the footwear product includes：

Footwear sole construction, the footwear sole construction include midsole component and at least one footwear outer bottom component；

The midsole component includes the first outer surface with recess；

The footwear outer bottom component has the second outer surface；

Wherein described recess is configured as accommodating the footwear outer bottom component；

It is included in the Part I in first outer surface and second in second outer surface in the footwear sole construction Partial region；

The region includes one group of hole for being arranged to auxetic structure；

At least one hole in wherein described one group of hole is arranged in first outer surface, and in wherein described one group of hole At least one hole be arranged in second outer surface；And

Wherein described first outer surface has the first coefficient of friction relative to predetermined material, wherein second outer surface relative to The predetermined material has the second coefficient of friction, and wherein described second coefficient of friction is more than first coefficient of friction.

11. footwear product according to claim 10, it is characterised in that the footwear outer bottom component has than the midsole The higher density of component.

12. footwear product according to claim 10, it is characterised in that the footwear outer bottom component is made up of rubber.

13. footwear product according to claim 10, it is characterised in that the midsole component is made of a foam material.

14. footwear product according to claim 10, it is characterised in that second outer surface of the footwear outer bottom component There is decorative pattern.

15. footwear product according to claim 10, it is characterised in that second outer surface includes ridge.

16. a kind of footwear product, it is characterised in that the footwear product includes：

Include the footwear sole construction of midsole component；

The midsole component includes being arranged to multiple openings of auxetic structure；

The multiple opening is included by the first sole portion, the second sole portion, the 3rd sole portion, the 4th sole portion, the The first opening that five sole portions and the 6th sole portion are surrounded；And

Wherein described first sole portion includes the first protruding pattern element, wherein second sole portion includes the second projection Pattern element, wherein the 3rd sole portion includes the 3rd protruding pattern element, wherein the 4th sole portion includes the Four protruding pattern elements, wherein the 5th sole portion includes the 5th protruding pattern element and wherein described 6th sole part Dividing includes the 6th protruding pattern element.

17. footwear product according to claim 16, it is characterised in that：

The first protruding pattern element is centered on first sole portion；

The second protruding pattern element is centered on second sole portion；

The 3rd protruding pattern element is centered on the 3rd sole portion；

The 4th protruding pattern element is centered on the 4th sole portion；

The 5th protruding pattern element is centered on the 5th sole portion；And

The 6th protruding pattern element is centered on the 6th sole portion.

18. footwear product according to claim 16, it is characterised in that the first protruding pattern element, described second Protruding pattern element, the 3rd protruding pattern element, the 4th protruding pattern element, the 5th protruding pattern element and The 6th protruding pattern element all has common geometry.

19. footwear product according to claim 18, it is characterised in that the common geometry is triangle geometry Shape.

20. footwear product according to claim 16, it is characterised in that the footwear sole construction includes at least one footwear outer bottom Component, wherein the footwear outer bottom component has the coefficient of friction higher than the midsole component, and wherein described sole knot The outer surface of structure includes the outer surface of the midsole component and the outer surface of the footwear outer bottom component.