CN105392383A - Boots with external heel counters - Google Patents

Abstract

Boots with external heel counters are disclosed herein. An external heel counter can include a heel counter body that is configured to form at least a portion of an external surface of a boot, where the heel counter body is configured to extend around a heel portion of the boot between an outsole of the boot and an upper of the boot. An external heel counter can further include a spur rest configured to support a yoke of a spur. Boots having an outsole and an upper, where the upper is configured to receive a wearers foot, can receive and couple with an external heel counter according, wherein the external heel counter is configured to support the wearers heel when the wearer wears the boot.

Description

There is the boots of outside heel counter

The cross reference of related application

This application claims U.S. Provisional Patent Application 61/825,864 and the priority of U.S. Provisional Patent Application 61/825,873, these two U.S. Provisional Patent Application are all submitted on May 21st, 2013, are incorporated to by reference at this.

Field of the present disclosure

The disclosure relates generally to footwear, and relates more specifically to the boots (boot) comprising outside heel counter (externalheelcounter).

Background of invention

Boots generally comprises heel counter, and heel counter is inner between the liner and the outer bottom of boots of boots at boots.Heel counter is formed and/or is molded as and supports and the heel of location wearer when wearer puts on boots, and therefore heel counter can also provide stability to the ankle of wearer and/or foot.Traditional heel counter is fixed in boots before assembling, or from comprising the boot upper welt of liner to outer bottom.

West and/or the wearer of horsemanship boots often can utilize spur (spur), spur is the instrument that can be operationally attached or be coupled to the boots of wearer and be positioned for engaging and/or guiding horse.Spur has boots yoke (yoke) usually, and boots yoke is partly attached to boots around the rear portion of boots by one or more tape.This boots yoke additionally or alternatively can be called as band or heel band.

The demand continued is existed to the improvement of heel counter structure, particularly demand is existed to the heel counter supporting spur.

Summary of the invention

In order to provide understanding substantially of the present invention, following present the general introduction of the simplification of embodiments more of the present invention.This general introduction is not of the present inventionly to summarize widely.That this general introduction is not intended to determine key of the present invention or conclusive element or describe scope of the present invention.The sole purpose of this general introduction presents the preorder of embodiments more of the present invention as the more detailed description presented after a while in simplified form.

Outside heel counter can comprise the heel counter main body being at least partially configured to the outer surface forming boots, and the heel portion that wherein heel counter main body is configured to around boots between the outer bottom and the boot upper of boots of boots extends.Outside heel counter can also comprise the spur holder (spurrest) being configured to the boots yoke supporting spur.Have the boots of outer bottom and boot upper, wherein boot upper is configured to the foot receiving wearer, can receive outside heel counter and be coupled with outside heel counter, and its peripheral heel counter is configured to the heel supporting wearer when wearer puts on boots.In every respect, be similar to traditional boots stabilizer, outside heel counter can provide stability and balance to boots, because this eliminating the demand to the boots stabilizer in the internal structure of boots.

In some embodiments, outside heel counter can comprise the heel counter main body being at least partially configured to the outer surface forming boots, and the heel portion that wherein heel counter main body is configured to around boots between the outer bottom and the boot upper of boots of boots extends.In certain aspects, outside heel counter can also comprise the spur holder being configured to the boots yoke supporting spur.In in other, outside heel counter can have the spur holder when spur is operationally attached to boots at least partly between boots yoke and outer bottom.In in other, outside heel counter can have by the spur holder that manufactures by size with the motion at the part contacted with spur holder of the resisting boots yoke end toward the outside.In certain aspects, outside heel counter can have the spur holder defined by the projection on the outer surface of outside heel counter.In in other, outside heel counter can have the spur holder defined by heel counter main body.In in other, outside heel counter can have the outside heel counter also comprising spur bias structure.

In certain aspects, outside heel counter can comprise and is configured to allow boots yokes in response to substantially applying to be greater than the first power of first threshold amount to boots yoke towards the spur bias structure that spur delivery is dynamic on the direction of spur holder.In in other, outside heel counter can have be configured to allow boots yokes in response to substantially away from the second power direction of spur holder applying be greater than Second Threshold amount to boots yoke away from the spur bias structure that spur delivery is dynamic.In these areas, Second Threshold amount can be greater than first threshold amount, and selectively Second Threshold amount can than large at least 2 times, at least 3 times, at least 4 times, at least 5 times, at least 6 times, at least 8 times or at least 10 times of first threshold amount.In in other, outside heel counter can comprise and is configured to preferentially to allow boots yoke towards the dynamic and opposing boots yoke of spur delivery away from the dynamic spur bias structure of spur delivery.In certain aspects, outside heel counter can have the spur bias structure being configured to boots yoke to be biased towards spur holder.In in other, outside heel counter can have the spur bias structure defined by the multiple sawtooth on the outer surface of outside heel counter.In in other, outside heel counter can comprise multiple sawtooth, multiple sawtooth is substantially defining the first approach angle and defining the second approach angle on the side substantially deviating from spur holder on the side of spur holder, selectively wherein the first approach angle is different from the second approach angle, and further selectively wherein the first approach angle be greater than the second approach angle.In in other, outside heel counter can have the spur bias structure defined by heel counter main body.In in other, outside heel counter can have by polymeric material, rubber, polyurethane, thermoplastic polyurethane, flexible material, elastomeric material, rough material, textured material, and/or the heel counter main body that at least one in annular knurl material is formed.

In other embodiment, boots can comprise and is configured to receive the boot upper of the foot of wearer, is operationally attached to boot upper and is configured to when wearer puts on boots the outer bottom on surface contiguously and outside heel counter, and its peripheral heel counter is configured to the heel of the support wearer when wearer puts on boots.In certain aspects, boots can comprise the outside heel counter at least partially of the outer surface defining boots.In in other, boots can comprise a part, and the outer surface of boots extends between outer bottom and boot upper in the portion.In in other, boots can comprise a part, and the outer surface of boots extends around the heel portion of boots in the portion.In certain aspects, boots can have the boot upper defining outer surface, and outside heel counter is fixed to outer surface at least partially.In in other, boots can not comprise inner heel counter clearly.In in other, boots can have the outside heel counter for the unique heel counter be associated with boots.In certain aspects, boots can comprise the spur of the heel portion being operationally attached to boots.

In further embodiment, the method for assembling boots can comprise boot upper is operationally attached to outer bottom, and to define boot upper-outer bottom component, boot upper is configured to the foot receiving wearer, and outer bottom is configured to when wearer puts on boots surperficial contiguously; And outside heel counter is fixed to the outer surface of boot upper-outer bottom component.In certain aspects, the method be operationally attached comprises boot upper welt to outer bottom.In in other, fixing method is after being operationally attached.In in other, fixing method comprises the outer surface outside heel counter being adhered to boot upper-outer bottom component.In certain aspects, the outer surface that fixing method is included in boot upper-outer bottom component forms outside heel counter.In in other, fixing method comprises with at least one machanical fastener and the outer surface selectively with suture, outside heel counter being fixed to boot upper-outer bottom component.In in other, the method can comprise and uses outside heel counter as described herein.In in also other, the method can comprise and uses boots as described herein.

The feature of these and other, aspect, and advantage is described below with reference to the following drawings, and when reading detailed description subsequently with reference to accompanying drawing, the feature of these and other, aspect, and advantage will become and understands better.

Accompanying drawing is sketched

Fig. 1 is the schematic diagram of illustrative, the non-exclusive example of step in the technological process of the assembling of the boots comprised according to outside heel counter of the present disclosure.

Fig. 2 is the schematic diagram of illustrative, the non-exclusive example of another step in the technological process of the assembling of boots in Fig. 1.

Fig. 3 is the schematic diagram of illustrative, the non-exclusive example of another step in the technological process of the assembling of boots in Fig. 1-2.

Fig. 4 is the schematic diagram of illustrative, the non-exclusive example according to outside heel counter of the present disclosure.

Fig. 5 is the schematic diagram of the non-exclusive example of the side view of the boots comprised according to outside heel counter of the present disclosure.

Fig. 6 is the schematic diagram of the non-exclusive example of the relative side view of the boots of Fig. 5.

Fig. 7 is the schematic diagram of the non-exclusive example according to outside heel counter of the present disclosure.

Fig. 8 is the schematic cross section intercepted along the line A-A in Fig. 7 of the outside heel counter of Fig. 7.

Fig. 9 describes the flow chart according to the method for assembling boots of the present disclosure.

The detailed description of invention

In order to the object explained, in whole this describes, many concrete details are stated to provide the thorough understanding to many embodiments disclosed herein.But be apparent that for a person skilled in the art, many embodiments can be implemented when not having some details in these concrete details.In other situation, well-known structure and equipment show to avoid confusion with the form of sketch or schematic diagram the general principle of the embodiment described.

Outside heel counter can provide stability, support and balance to boots, is similar to traditional boots stabilizer, because this eliminating the demand to the boots stabilizer in the internal structure of boots.By being positioned at the outside of boots, can outside than traditional boots as leather have more rigidity and have more the structure of the outside heel counter of mechanically supportive, can be configured to also provide clamping, installation or other operability structure.In some respects, this outside heel counter can be configured to be coupled with spur or spur boots yoke, provides the more powerful or firmer attachment of spur to boots.

Fig. 1-8 provides illustrative, the non-exclusive example according to boots 10 of the present disclosure, outside heel counter 100 and/or its parts.Rise similar effect or play similar effect at least substantially each figure of element in Fig. 1-8 in by identical figure notation, and these elements may not be discussed in detail with reference to each figure in figure 1-8 in this article.Similarly, all elements may be labeled in each figure not in Fig. 1-8, but in order to uniformity, reference number related to this can be used in this article.Element, parts and/or the feature discussed with reference to the one or more figure in figure 1-8 herein can be included in any one figure in Fig. 1-8 and/or be utilized together with any one figure in Fig. 1-8, and do not depart from the scope of the present disclosure.

Substantially, the element that may be included in given (that is, specific) embodiment illustrates with solid line, and is that selectable element is shown in broken lines for given embodiment.But, optional to all embodiments with the element shown in solid line, and can omit from specific embodiment with the element shown in solid line, and do not depart from the scope of the present disclosure.

Fig. 1-3 is schematic diagrames of illustrative, the non-exclusive example of step in the technological process of the assembling of the boots 10 comprised according to outside heel counter 100 of the present disclosure.As demonstrated, boots 10 comprises the outer bottom 50 being configured to receive the boot upper 20 of at least low portion of the foot of wearer and the leg of wearer, being configured to the surface contiguously when wearer puts on boots 10, and is configured to the outside heel counter 100 of the heel supporting wearer when wearer puts on boots.As what should understand from conventional boots, when boots 10 is put on, the foot of wearer usually by shoe-pad and/or be positioned the foot of wearer and the more wear-resisting of outer bottom exterior section between in the end remain on or at least press on outer bottom.When boots 10 is put on, boot upper around the side of the foot of wearer and top, and the heel of wearer, ankle, Achilles area and wearer the extension at least partially of shank.

As shown in Figure 1, and comprising in the assembling process according to the boots 10 of outside heel counter 100 of the present disclosure, boot upper 20, outer bottom 50 and outside heel counter 100 initially can be separated from each other, can make individually, manufacture and/or assemble, and/or can not be operationally attached to each other.Then, and as shown in Figure 2, boot upper 20 and outer bottom 50 can be operationally attached to each other to form boot upper-outer bottom component 30.But outside heel counter 100 still can separate with boot upper-outer bottom component, spaced apart, and/or is not operationally attached to boot upper-outer bottom component.This operability is attached to comprise and in any suitable manner boot upper is operationally attached to outer bottom to form boot upper-outer bottom component.Illustratively, non-exclusive example, boot upper and outer bottom can use welt technique to be operationally attached to each other, but other assemble method and/or mechanism are also in the scope of the present disclosure.After boot upper-outer bottom component 30 is formed, and as shown in Figure 3, outside heel counter 100 can be operationally attached and/or otherwise combine or be fixed to boot upper-outer bottom component (or its outer surface 32) to form boots 10, and boots 10 can be boots 10 that is that (but not Seeking Truth) completes or that be fully formed.

Outside heel counter 100 can comprise operationally can be fixed to boot upper-outer bottom component 30 and any suitable structure that can be configured to, manufacture and/or be configured to by size the heel supporting wearer.Illustratively, non-exclusive example, can being formed (as shown in Figure 3) by the heel counter main body 110 extended between the heel portion 12 around boots 10 and/or the rear portion/heel part at boot upper 20 and outer bottom 50 at least partially or all of outside heel counter 100.

Outside heel counter 100 can comprise and can be formed by heel counter main body 110 and/or by being operationally attached to the one or more other structure of heel counter main body 110 in the scope of the present disclosure.Illustratively, non-exclusive example, outside heel counter 100 can also comprise the spur holder 120 (spur holder 120 can selectively be known as spur frame or spur base) that (and/or its heel counter main body 110 can define) is configured to the boots yoke 92 supporting spur 90, and boots yoke 92 such as can operationally be attached to boots 10 (as shown in Figure 3) by any suitable tape 94.Illustrative as another, non-exclusive example, outside heel counter 100 additionally or selectively can comprise (and/or its heel counter main body 110 can define) in this article by the spur bias structure 130 discussed in more detail.

As shown in Figure 3, outside heel counter 100 can define the outer surface 14 of boots 10 at least partially.As discussed, this can comprise the part extended around heel portion 12 and/or the part extended between outer bottom 50 and boot upper 20 of outer surface of outer surface.

As discussed in this article, the part that traditional boots can comprise can be positioned at boots inside, can not define outer surface 14, and/or can inside heel counter before boot upper and outer bottom are operationally attached to each other between boot upper 20 and outer bottom 50.But the boots 10 comprising outside heel counter 100 disclosed herein can not comprise inner heel counter.Additionally or alternatively, outside heel counter 100 can be associated with boots 10, be used in boots 10, and/or be operationally attached to unique heel counter of boots 10.

Outside heel counter 100 can comprise any suitable material or multiple material and/or is formed in the scope of the present disclosure by any suitable material or multiple material.Illustratively, non-exclusive example, outside heel counter 100 can comprise any suitable polymeric material, rubber, polyurethane, and/or thermoplastic polyurethane, by any suitable polymeric material, rubber, polyurethane, and/or thermoplastic polyurethane is formed, and/or by any suitable polymeric material, rubber, polyurethane, and/or thermoplastic polyurethane defines.As other illustrative, non-exclusive example, outside heel counter 100 can also comprise any suitable flexible material and/or elastomeric material, formed by any suitable flexible material and/or elastomeric material, and/or defined by any suitable flexible material and/or elastomeric material.

Outside heel counter 100 can also define any suitable configuration of surface also in the scope of the present disclosure.Illustratively, non-exclusive example, outside heel counter can define coarse surface, textured surface, and/or the surface of annular knurl.

Spur holder 120 can comprise and is designed to, is configured to, manufactures by size, and/or is configured to any suitable structure of the boots yoke 92 supporting spur 90.Illustratively, non-exclusive example, and as shown in Figure 3, spur holder 120 can be positioned between spur 90 (when it is present) and outer bottom 50, and can be configured to resist spur 90 (or boots yoke 92 contact at least partially with spur holder) and pass and/or the motion at the end 50 toward the outside.Illustrative as another, non-exclusive example, spur holder 120 can be included in block, rib or other projection 122 on the outer surface 102 of outside heel counter 100, be block, rib or other projection 122 on the outer surface 102 of outside heel counter 100, and/or defined by the block on the outer surface 102 of outside heel counter 100, rib or other projection 122.

Spur holder 120 can be defined by heel counter main body 110 and/or be integrated in the scope of the present disclosure with heel counter main body 110 one-tenth.Illustratively, non-exclusive example, outside heel counter 100 (or its heel counter main body 110) can comprise and/or be the all-in-one-piece outside heel counter 100 comprising spur holder 120.Additionally or selectively, spur holder 120 operationally can be attached to outside heel counter 100 also in the scope of the present disclosure.

Spur bias structure 130 can comprise and is designed to, is configured to, manufactures and/or be configured to be biased by size, guides and/or otherwise preferably guides spur 90 (when it is present) towards spur holder 120 and/or any suitable structure that contacts with spur holder 120.Illustratively, non-exclusive example, and as discussed in more detail with reference to figure 7-8 herein, spur bias structure 130 can comprise and/or be multiple sawtooth 132, and spur can be biased towards spur holder by multiple sawtooth 132.Sawtooth 132 can also be called as tooth 132 and/or ridge 132 herein.

As discussed, spur bias structure 130 is configured to spur 90 (when it is present) is biased or preferentially biased towards spur holder 120.But spur bias structure 130 can also allow spur 90 (when it is present) to move in the scope of the present disclosure away from spur holder 120.Illustratively, non-exclusive example, spur bias structure 130 can be configured to preferentially allow spur 90 (or its boots yoke 92) to move towards spur holder 120, resists (but not stoping) boots yoke dynamic away from spur delivery simultaneously.This discusses in further detail with reference to figure 4 in this article.

Illustratively, non-exclusive example, when wearer ride or other animal time can be put on by wearer according to boots 10 of the present disclosure, and boots 10 can be placed on and/or be placed in the stirrup of saddle by wearer.In these cases, boots shifts out by speed of seeking quickness possibly from stirrup, and this shifting out fast can be promoted away from spur holder 120 by rotation and/or motion spur 90.In some is different, when spur be blocked for rotation or alternate manner motion away from spur holder 120 time, boots is shifted out from stirrup and may be obstructed or slow down.Therefore, spur bias structure 130 can be configured to the such rotation and/or the motion that allow spur 90.But and as discussed in further detail herein, spur bias structure 130 can be constructed to make to be rotated by spur 90 or move can than being rotated by spur 90 or moving larger towards the power needed for spur holder 120 away from the power needed for spur holder 120.Illustratively, non-exclusive example, spur bias structure 130 can be configured to stoping spur 90 to jump and/or move in the direction away from spur holder 120 relative to boots 10 (that is, owing to being applied to the power of spur by momentum and/or gravity) when riding as wearer.Illustrative as another, non-exclusive example, spur bias structure 130 can also be configured to allowing spur 90 moving (that is, owing to being applied to the power of spur by momentum and/or gravity) towards the direction of spur holder 120 relative to boots 10 when riding as wearer.

Be similar to spur holder 120, spur bias structure 130 can be defined by heel counter main body 110 and/or be integrated in the scope of the present disclosure with heel counter main body 110 one-tenth.Illustratively, non-exclusive example, outside heel counter 100 (or its heel counter main body 110) can comprise and/or be the all-in-one-piece outside heel counter 100 comprising spur bias structure 130.Additionally or selectively, spur bias structure 130 operationally can be attached to outside heel counter 100 also in the scope of the present disclosure.

Boot upper 20 can comprise and manufactures by size, is designed to, is configured to, and/or is configured to receive any suitable structure of the foot of wearer and can be made up of any suitable material.This can comprise the boot upper of any suitable routine that can be used in conventional boots.Illustratively, non-exclusive example, boot upper 20 can comprise the leg of a boot (shaft) 22 and shell (shell) (or boot upper anter (vamp)) 24, and the leg of a boot 22 allows the foot of wearer to enter into shell 24 and the leg of a boot 22 is around the low portion of the leg of wearer when wearer puts on boots, and shell 24 holds the foot of wearer when wearer puts on boots 10.Usually, heel string part around at least shank of ankle and wearer extends by the leg of a boot 22 (it additionally or optionally can be called as boots pipe), and some legs of a boot extend to the mid calf of wearer and/or extend to the knee of wearer or extend towards the knee of wearer.As other illustrative, non-exclusive example, boot upper 20 can be made up of naturally occurring material, leather, cloth, synthetic material and/or polymer.U.S. Patent number 7 can be disclosed in using and/or be included in together with boots 10 of the present disclosure according to other illustrative, the non-exclusive example of the boot upper 20 in boots 10 of the present disclosure, 980, in 010, the full disclosure content of this United States Patent (USP) is incorporated to accordingly by quoting.

Outer bottom 50 can comprise any suitable structure manufacturing by size, be designed to, be configured to and/or be configured to contact with ground surface when wearer puts on boots 10.This can comprise the outer bottom of any suitable routine be used in conventional boots.As Figure 1-3, outer bottom 50 can comprise heel or heel sleeve (heelcap) 52 and/or have and the heel of its attachment or heel sleeve 52.Heel 52 can be described as protruding heel, or protruding heel sleeve, because heel 52 extends away from the leg of a boot and defines composition surface 63, may be used for like this being engaged by boots and being positioned in stirrup.Outer bottom 50 can being combined to form and/or being formed in the scope of the present disclosure by any suitable material or material, and material comprises naturally occurring material, leather, rubber, synthetic material and/or polymer.As shown in Figure 2, outer bottom 50 can comprise the shank 64 of the arch area 65 supporting outer bottom, and outer bottom 50 can comprise the middle end 66 and/or shoe-pad 67 and/or combinationally use with the middle end 66 and/or shoe-pad 67, when boots is put on, the middle end 66 and/or shoe-pad 67 (when it is present) are positioned at more near the foot of wearer than the remainder of outer bottom.The surface, outside (that is, earth surface or bottom) 68 of outer bottom 50 and/or heel 52 can optionally comprise tread structure 69.Can be included in according in boots 10 of the present disclosure and/or be disclosed in U.S. Patent Application Publication No. 2010/0126044 and 2011/0271553 with illustrative, the non-exclusive example of the outer bottom 50 used together with boots 10 of the present disclosure, the full disclosure content of this U.S. Patent Application Publication is incorporated to accordingly by quoting.

As discussed in this article, when ride (or other animal) time wearer can put on according to boots 10 of the present disclosure.Also as discussed, insert and/or location boots 10 in this stirrup that can be included in saddle, and may often (and sometimes unexpectedly) need to shift out boots 10 fast from stirrup.Consider this point, circular edge and/or rounded edges 70 can be comprised according to outer bottom 50 of the present disclosure.This circular edge and/or rounded edges 70 can reduce constraint between outer bottom 50 and stirrup and/or friction, therefore facilitate boots and shift out quickly from stirrup.

Fig. 4 is the schematic diagram of illustrative, the non-exclusive example according to outside heel counter 100 of the present disclosure, and this outside heel counter 100 can comprise and/or be the outside heel counter 100 of Fig. 1-3.As discussed, outside heel counter 100 can be formed by heel counter main body 110, and outside heel counter 100 can comprise spur holder 120 and spur bias structure 130.Also as discussed, spur bias structure 130 can be configured to allow spur 90 (or its boots yoke 92) to move towards spur holder 120 with away from the delivery of this spur.But spur bias structure can be configured to spur to be preferentially biased towards spur holder and/or to be biased to contact with spur holder.

Illustratively, non-exclusive example, spur bias structure 130 can be configured to allow boots yoke 92 to move towards spur holder 120 in response to substantially applying to it the first power 134 of being greater than first threshold amount towards the direction (as illustrated with solid line) of spur holder on.Illustrative as another, non-exclusive example, spur bias structure 130 can also be configured to allow boots yoke 92 in response to substantially moving away from spur holder 120 away from the direction (as illustrated with chain-dotted line) of spur holder is greater than the second power 136 of Second Threshold amount to its application.

Second Threshold amount can be greater than first threshold amount, therefore allows spur bias structure 130 to be preferentially biased, in the scope of the present disclosure towards spur holder by spur.Such as, spur bias structure can be configured to spur biased or promote towards spur holder, and in normal/general use procedure of boots, such as when wearer's walking, run and ride time, opposing spur away from base upwards/move pivotally.But, if when/wearer needs boots to shift out from stirrup, foot's (with boots and the spur of attachment) of wearer can apply power relative to this motion of stirrup on spur, this power overcomes the biased of this normal/first and allows spur pivotable or otherwise move away from spur holder, therefore allows boots more easily to shift out from stirrup.Illustratively, non-exclusive example, Second Threshold amount can than large at least 2 times, at least 3 times, at least 4 times, at least 5 times, at least 6 times, at least 8 times or at least 10 times of first threshold amount.This preferentially biased can use any suitable structure example such as sawtooth 132, and this discusses in more detail with reference to figure 7-8 herein.

Fig. 5-8 is schematic diagrames of the non-exclusive example according to boots 10 of the present disclosure, outside heel counter 100 and/or its parts, and they can comprise and/or be boots 10 and/or the outside heel counter 100 of Fig. 1-4.In figs. 5 to 8, the position of boots 10 and/or its parts, orientation and/or size can specifically details describe.These positions, orientation and/or size represent illustrative, the non-exclusive example according to position of the present disclosure, orientation and/or size, and are not limited to this illustrative position, orientation and/or size (comprising relative size) according to boots 10 of the present disclosure and/or its parts.

Fig. 5-6 is schematic diagrames of the nonexcludability example of the reverse angle view of the boots 10 comprised according to outside heel counter 100 of the present disclosure.Except the boots 10 of outside heel counter 100, Fig. 5-6 also comprises boot upper 20 and outer bottom 50.As demonstrated, outside heel counter 100 comprises the all-in-one-piece heel counter main body 110 defining spur holder 120 and both spur bias structures 130, and spur bias structure 130 comprises multiple sawtooth 132, sawtooth 132 discusses in more detail with reference to figure 7-8 herein.

Fig. 7 is the schematic diagram of the non-exclusive example according to outside heel counter 100 of the present disclosure, and Fig. 8 is the schematic cross section intercepted along the line A-A in Fig. 7 of the outside heel counter of Fig. 7.As Figure 7-8, outside heel counter 100 comprises the all-in-one-piece heel counter main body 110 defining spur holder 120 and spur bias structure 130.Spur bias structure 130 comprises the multiple sawtooth 132 being oriented and being biased towards spur holder 120 by spur (as shown in Figure 3-4).

In certain aspects, the multiple sawtooth 132 on the inner side of outside heel counter 100 can towards any one in the inner and outer (namely away from center line) of the boots 10 that can be attached to outside heel counter 100 of outside heel counter 100 or both.In other side, multiple sawtooth 132 on the outside of outside heel counter 100 can towards any one in the outside of the boots 10 that can be attached to outside heel counter 100 of outside heel counter 100 and inner side (again, away from center line) or both.In in illustrative, the details of multiple sawtooth 132 is illustrated, particularly towards the sawtooth of the first side 132' of outside heel counter 100 and the second side 132 towards outside heel counter 100 " sawtooth.In various embodiments, any one in the first side or the second side can correspond to inner side or the outside of boots 10, and this depends on the configuration of outside heel counter 100.

Illustratively, non-exclusive example, Fig. 8 illustrates sawtooth 132, and sawtooth 132 can from substantially towards the side of spur holder 120 or define the first approach angle 140 in the side substantially towards spur holder 120 and from substantially deviating from the side of spur holder 120 or defining the second approach angle 144 in the side substantially deviating from spur holder 120.Also as demonstrated, the first approach angle can be different from (or being greater than) the second approach angle, to allow, promote, and/or produces preferential biased (as shown in Figure 4 and as discussed in this article) of spur towards spur holder 120.In certain aspects, first approach angle 140 can be measured as the angle between the axis of the perpendicular perpendicular to outside heel counter 100 and sawtooth 132 slope relative to ground, and the serrated surface wherein along the first approach angle 140 can provide a certain amount of resistance to the application of the first power 134.In in other, second approach angle 144 can be measured as the angle between the axis of the perpendicular of outside heel counter 100 and sawtooth 132 slope relative to ground, and the serrated surface wherein along the second approach angle 144 can provide a certain amount of resistance to the application of the second power 136.Spur 90 (or its boots yoke 92) can be biased and be fixed to spur holder 120 by the combination of the first approach angle 140 and the second approach angle 144.In certain aspects, the first approach angle 140 can be from about 20 ° to about 70 °, from about 30 ° to about 60 °, or in specific in can be about 45 °.In in other, the second approach angle 144 can be from about 20 ° to about 70 °, from about 30 ° to about 60 °, or in specific in can be about 45 °.In in other, spur holder 120 can have as the major surfaces from the horizontal plane or heel that are parallel to ground downwardly ground survey from the angle of about 0 ° to about 10 °.

In certain aspects, the single tooth of multiple sawtooth 132 can have about 1mm, about 2mm, or the length of about 3mm (externally the surface measurement of heel counter 100).In in other, the single tooth of multiple sawtooth 132 can have the various length (externally the surface measurement of heel counter 100) from about 1mm to about 3mm.In certain aspects, outside heel counter 100 can have the thickness from about 2mm to about 6mm, the thickness of its peripheral heel counter 100 can due to spur holder 120, spur bias structure 130, multiple sawtooth 132, or the different thickness of other such projection 122 and changing.In in other, the main main body of outside heel counter 100 can have the transformable thickness from about 1.5mm to about 10.0mm.

Fig. 9 describes the flow chart according to the method 300 of assembling boots of the present disclosure.Method 300 comprises the boot upper boot upper 20 of Fig. 5-6 (the such as Fig. 1-3 with) being operationally attached to the outer bottom outer bottom 50 of Fig. 5-6 (the such as Fig. 1-3 with) to form boot upper-outer bottom component (boot upper-outer bottom component 30 of such as Fig. 3) shown in 310.Method 300 also comprises, shown in 320, outside heel counter (the outside heel counter 100 of such as Fig. 1-8) is fixed to boot upper-outer bottom component.

With boot upper is operationally attached to outer bottom and can comprises and in any suitable manner boot upper is operationally attached to outer bottom shown in 310.Illustratively, non-exclusive example, can comprise boot upper welt to outer bottom (or using welt technique that boot upper is operationally attached to outer bottom) with the operationally attachment shown in 310.

With outside heel counter is fixed to boot upper-outer bottom component and can comprises the outer surface outside heel counter being bonded in any suitable manner boot upper-outer bottom component shown in 320, and can carry out after with the operationally attachment shown in 310.Illustratively, non-exclusive example, with fixedly comprising shown in 320 outside heel counter adhered to and/or be fused to the outer surface of boot upper-outer bottom component.Illustrative as another, non-exclusive example, so that the fixing outer surface that can also be included in boot upper-outer bottom component shown in 320 to form outside heel counter.As also other illustrative, non-exclusive example, fix and can comprise stitching, darning, or otherwise use machanical fastener so that outside heel counter is fixed to boot upper-outer bottom component.In selectable embodiment, outside heel counter can use adhesive, adhesive, or other such binding member is fixed to boot upper-outer bottom component.Illustrative, the non-exclusive example of machanical fastener comprises screw thread/suture, nail and tack.In specific example, outside heel counter can selectively or additionally externally the top edge of heel counter sew up or welt to boot upper-outer bottom component.In other selectable embodiment, outside heel counter can be co-molded with boot upper-outer bottom component, reduces manufacturing step.

In the disclosure, several in illustrative, non-exclusive example have come into question and/or have presented in the context of flow chart or flow chart, and in flow chart or flow chart, method is shown and described as a series of frame block or step.Unless illustrated in appended description, otherwise the order of frame block can not coexist in the scope of the present disclosure with the order that demonstrates in flow chart, comprises two or more frame blocks (or step) and occurs in sequence with different and/or occur simultaneously.

As used herein, term " inner side " and " inner side " refer to the inner side extending to heel from big toe of foot, and term " outside " and " outside " refer to the outside extending to heel from little toe of foot.Similarly, article of footwear comprises the inner side and outer side of the inner side and outer side corresponding respectively to foot.Term " center line " refers to the length along article of footwear, main longitudinal axis placed in the middle between the inner side and outer side of article of footwear.

As used herein, the term "and/or" be placed between first instance and second instance represents following one: (1) first instance, (2) second instance, and (3) first instance and second instance.The multiple entities listed by "and/or" should be understood by identical mode, " one or more " in the entity namely so combined.Except the entity clearly determined by "and/or" project, other entities can selectively exist, relevant or uncorrelated to these entities clearly determined.Therefore, as nonrestrictive example, when being combined as " comprising " with open language, can refer in one embodiment only A (selectively comprising the entity except B) mentioning of " A and/or B "; In another embodiment, refer to only B (selectively comprising the entity except A); Refer to A and B (selectively comprising other entities) in yet another embodiment.These entities can finger element, action, structure, step, operation, value and analog.

As used herein, phrase " at least one " about the list of one or more entity is interpreted as referring at least one entity of any one or more entities in the entity be selected from the list of entity, but not necessarily comprise at least one of each entity specifically enumerated in the list of entity, and do not get rid of any combination of the entity in list of entities.This definition also allows the entity except the entity clearly determined in list of entities that phrase " at least one " is quoted selectively to exist, relevant or uncorrelated to those entities clearly determined.Therefore, as nonrestrictive example, " in A and B at least one " (or, equivalently, " in A or B at least one ", or, equivalently, " in A and/or B at least one ") at least one A can be referred in one embodiment, selectively comprise more than one A, wherein B does not exist (and the entity selectively comprised except B); In another embodiment, refer at least one B, selectively comprise more than one B, wherein A does not exist (and the entity selectively comprised except A); In still another embodiment, refer at least one A, comprise more than one A alternatively, and at least one B, comprise more than one B (and selectively comprising other entities) alternatively.In other words, phrase " at least one ", " one or more ", and "and/or" is the open statement of connectivity and separation property in utilization.Such as, each in statement " A, B and at least one in C ", " in A, B or C at least one ", " A, B with in C one or more ", " one or more in A, B or C " and " A, B and/or C " can mean to only have A, only has B, only has C, A together with B, together with A with C, together with B with C, A, B together with C, and selectively with at least one other combination of entities above-mentioned in any one.

In any patent, patent application or other bibliography be incorporated to by reference herein and (1) to define term and/or (2) with any one inconsistent mode in the part that is not incorporated to of the present disclosure or other bibliography be incorporated to any one be inconsistent in other side and the part that is not incorporated to of the present disclosure or other bibliography be incorporated to, the part be not incorporated to of the present disclosure should be main, and relative to the bibliography that the disclosure that wherein term is defined and/or is incorporated to is presented primitively, term wherein or the disclosure be incorporated to should be only master.

As used herein, term " is modified " and " being configured " is meant to element, parts or other subject matter and is designed to and/or is intended to perform given function.Therefore, term " is modified " and the use of " being configured " should not be construed to be meant to given element, parts or other subject matter simply " can " perform given function, but the object performing this function is selected, is produced, is implemented, is utilized, programmed and/or be designed for element, parts and/or other subject matter especially.Be modified to element, parts and/or other subject matter described of describing of performing specific function additionally or to be selectively described as and to be configured to perform this function, and vice versa, also in the scope of the present disclosure.Similarly, the subject matter described being configured to perform specific function additionally or selectively can be described as and operated to perform this function.

Think that the above-mentioned disclosure comprises multiple different invention with independent utility and industrial applicibility.Although each open with its preferred form in these inventions, its specific embodiment that is disclosed herein and that set forth should not considered, in limiting sense because many versions are possible.Theme of the present invention comprise all novelties of various element disclosed herein, feature, function and/or characteristic with non-obvious combination and sub-portfolio.Similarly, when the paragraph of the disclosure, aforementioned numbering or the claim that proposes subsequently describe " one " or " first " element or its equivalent, such claim should be understood to the combination comprising one or more such elements, both two or more such elements neither requiring nor excluding.

Applicant retains to submit to and relates to some and relate in invention disclosed and be considered to novel with non-obvious combination with the right of the claim of sub-portfolio.The invention embodied in other combination and sub-portfolio of feature, function, element and/or characteristic can by revising those claims or submit new claim to and prescription in this or relevant application.Such amendment and new claim, no matter they relate to different inventions also relates to identical invention, no matter different from original claim in scope, more extensively, be narrowlyer still equal to original claim, be also believed to comprise in subject matter of an invention of the present disclosure.

Claims (34)

1. an outside heel counter, comprising:

Heel counter main body, it is configured to the outer surface of formation boots at least partially, and the heel portion that wherein said heel counter main body is configured to around described boots between the outer bottom and the boot upper of described boots of described boots extends.

2. outside heel counter according to claim 1, wherein said outside heel counter also comprises spur holder, and described spur holder is configured to the boots yoke supporting spur.

3. outside heel counter according to claim 2, wherein when described spur is operationally attached to described boots, described spur holder is at least partly between described boots yoke and described outer bottom.

4. outside heel counter according to claim 2, wherein said spur holder is fabricated to the motion of the part contacted with described spur holder towards described outer bottom of the described boots yoke of opposing by size.

5. outside heel counter according to claim 2, wherein said spur holder is defined by the projection on the outer surface of described outside heel counter.

6. outside heel counter according to claim 2, wherein said spur holder is defined by described heel counter main body.

7. outside heel counter according to claim 2, wherein said outside heel counter also comprises spur bias structure.

8. outside heel counter according to claim 7, wherein said spur bias structure is configured to allow described boots yoke in response to dynamic towards described spur delivery to described boots yoke in the first power substantially applying to be greater than first threshold amount on the direction of described spur holder.

9. outside heel counter according to claim 7, wherein said spur bias structure is configured to allow described boots yoke in response to substantially moving away from described spur delivery to described boots yoke away from the second power direction of described spur holder applying be greater than Second Threshold amount.

10. outside heel counter according to claim 9, wherein said Second Threshold amount is larger than described first threshold amount, and wherein said Second Threshold amount is than large at least 2 times of described first threshold amount.

11. outside heel counter according to claim 9, wherein said Second Threshold amount is larger than described first threshold amount, and wherein said Second Threshold amount is than large at least 3 times of described first threshold amount.

12. outside heel counter according to claim 9, wherein said Second Threshold amount is larger than described first threshold amount, and wherein said Second Threshold amount is than large at least 5 times of described first threshold amount.

13. outside heel counter according to claim 9, wherein said Second Threshold amount is larger than described first threshold amount, and wherein said Second Threshold amount is than large at least 10 times of described first threshold amount.

14. outside heel counter according to claim 7, wherein said spur bias structure is configured to preferentially to allow described boots yoke to move towards described spur delivery and resist described boots yoke and moves away from described spur delivery.

15. outside heel counter according to claim 7, wherein said spur bias structure is configured to described boots yoke to be biased towards described spur holder.

16. outside heel counter according to claim 7, wherein said spur bias structure is defined by the multiple sawtooth on the outer surface of described outside heel counter.

17. outside heel counter according to claim 16, wherein said multiple sawtooth is defined in substantially towards the first approach angle on the side of described spur holder and the second approach angle on the side substantially deviating from described spur holder, and wherein said first approach angle is different from described second approach angle.

18. outside heel counter according to claim 16, wherein said multiple sawtooth is defined in substantially towards the first approach angle on the side of described spur holder and the second approach angle on the side substantially deviating from described spur holder, and wherein said first approach angle is larger than described second approach angle.

19. outside heel counter according to claim 7, wherein said spur bias structure is defined by described heel counter main body.

20. outside heel counter according to claim 1, wherein said heel counter main body is formed by least one in polymeric material, rubber, polyurethane, thermoplastic polyurethane, flexible material, elastomeric material, rough material, textured material and/or annular knurl material.

21. 1 kinds of boots, comprising:

Boot upper, it is configured to the foot receiving wearer;

Outer bottom, it is operationally attached to described boot upper, and is configured to when wearer puts on described boots surperficial contiguously; With

Outside heel counter, it comprises the heel counter main body being at least partially configured to the outer surface forming boots, and the heel portion that wherein said heel counter main body is configured to around described boots between the outer bottom and the boot upper of described boots of described boots extends and supports the heel of wearer when wearer puts on described boots.

22. boots according to claim 21, wherein said outside heel counter defines the outer surface of described boots at least partially.

23. boots according to claim 22, the described part of the described outer surface of wherein said boots extends between described outer bottom and described boot upper.

24. boots according to claim 22, the described part of the described outer surface of wherein said boots extends around the described heel portion of described boots.

25. boots according to claim 21, wherein said boot upper defines outer surface, and additionally wherein said outside heel counter is fixed to described outer surface at least partially.

26. boots according to claim 21, wherein said boots does not comprise inner heel counter.

27. boots according to claim 21, wherein said outside heel counter is the unique heel counter be associated with described boots.

28. boots according to claim 21, wherein said boots also comprises the spur of the described heel portion being operationally attached to described boots.

29. 1 kinds of methods of assembling boots, described method comprises:

Boot upper is operationally attached to outer bottom, and to define boot upper-outer bottom component, described boot upper is configured to the foot receiving wearer, and described outer bottom is configured to when wearer puts on described boots surperficial contiguously; With

Outside heel counter is fixed to the outer surface of described boot upper-outer bottom component.

30. methods according to claim 29, wherein said operationally attachment comprises described boot upper welt to described outer bottom.

31. methods according to claim 29, wherein said be fixed on described in operationally attachment after.

32. methods according to claim 29, wherein saidly fixedly comprise the described outer surface described outside heel counter being adhered to described boot upper-outer bottom component.

33. methods according to claim 29, the wherein said described outer surface being fixedly included in described boot upper-outer bottom component forms described outside heel counter.

34. methods according to claim 29, wherein saidly fixedly comprise with at least one machanical fastener and the described outer surface optionally with suture, described outside heel counter being fixed to described boot upper-outer bottom component.