The present invention relates generally to articles of footwear, and, in particular, to articles with textile components.
Conventional articles of footwear generally include two primary elements, an upper and a sole structure. The upper is secured to the sole structure and forms a void on the interior of the footwear for comfortably and securely receiving a foot. The sole structure is secured to a lower area of the upper, thereby being positioned between the upper and the ground. In athletic footwear, for example, the sole structure may include a midsole and an outsole. The midsole often includes a polymer foam material that attenuates ground reaction forces to lessen stresses upon the foot and leg during walking, running, and other ambulatory activities. Additionally, the midsole may include fluid-filled chambers, plates, moderators, or other elements that further attenuate forces, enhance stability, or influence the motions of the foot. The outsole is secured to a lower surface of the midsole and provides a ground-engaging portion of the sole structure formed from a durable and wear-resistant material, such as rubber. The sole structure may also include a sockliner positioned within the void and proximal a lower surface of the foot to enhance footwear comfort.
The upper generally extends over the instep and toe areas of the foot, along the medial and lateral sides of the foot, under the foot, and around the heel area of the foot. In some articles of footwear, such as basketball footwear and boots, the upper may extend upward and around the ankle to provide support or protection for the ankle. Access to the void on the interior of the upper is generally provided by an ankle opening in a heel region of the footwear.
A variety of material elements are conventionally used in manufacturing the upper. In athletic footwear, for example, the upper may have multiple layers that include a variety of joined material elements. As examples, the material elements may be selected to impart stretch-resistance, wear-resistance, flexibility, air-permeability, compressibility, comfort, and moisture-wicking to different areas of the upper. In order to impart the different properties to different areas of the upper, material elements are often cut to desired shapes and then joined together, usually with stitching or adhesive bonding. Moreover, the material elements are often joined in a layered configuration to impart multiple properties to the same areas. As the number and type of material elements incorporated into the upper increases, the time and expense associated with transporting, stocking, cutting, and joining the material elements may also increase. Waste material from cutting and stitching processes also accumulates to a greater degree as the number and type of material elements incorporated into the upper increases. Moreover, uppers with a greater number of material elements may be more difficult to recycle than uppers formed from fewer types and numbers of material elements. By decreasing the number of material elements used in the upper, therefore, waste may be decreased while increasing the manufacturing efficiency and recyclability of the upper.
An article of footwear is disclosed that is configured to receive a foot of a wearer and that is configured to support a securement device. The securement device is configured to selectively vary a fit of the article of footwear on the foot. The article of footwear includes a sole structure and an upper with a lower portion that is attached to the sole structure. The upper further includes a heel region, a first side, and a second side. The upper further includes a textile component that includes a textile element that at least partially defines the heel region, the first side, and the second side of the upper. The textile component further includes a tensile element that is attached to the textile element. The tensile element defines a first segment disposed on the first side of the upper. The first segment of the tensile element is configured to attach the securement device to the textile element on the first side of the upper. The tensile element further includes a second segment that is disposed proximate the lower portion of the upper on the second side. The second segment is fixed relative to the lower portion of the upper on the second side. The tensile element further includes an intermediate segment that extends continuously from the first segment, across the heel region, to the second segment. The tensile element is configured to transfer at least a portion of an input force applied to the first side of the upper across the heel region, to the lower portion of the upper on the second side.
An article of footwear is also disclosed that is configured to receive a foot of a wearer and that is configured to support a securement device. The securement device is configured to selectively vary a fit of the article of footwear on the foot. The article of footwear includes a sole structure and an upper that defines a cavity configured to receive the foot. The upper includes a lower portion that is attached to the sole structure. The upper includes a heel region, a first side, and a second side. The upper further includes a knitted component formed of unitary knit construction. The upper defines an opening configured to provide passage of the foot into the cavity. The upper further includes a throat that is disposed between the first side and the second side. The throat extends away from the opening. The knitted component of the upper includes a knit element that at least partially defines the heel region, the first side, and the second side of the upper. The knitted component also includes a first tensile element that is formed of unitary knit construction with the knit element. The first tensile extends continuously from the throat on the first side, across the heel region, to the lower portion on the second side. Moreover, the knitted component includes a second tensile element that is formed of unitary knit construction with the knit element. The second tensile element extends continuously from the throat on the second side to the lower portion on the second side. The first tensile element defines at least one first segment that is disposed at the throat on the first side and that is configured to receive the securement device on the first side. The second tensile element defines at least one second segment that is disposed at the throat on the second side and that is configured to receive the securement device on the second side.
Additionally, a knitted component is disclosed that is configured to define an upper for an article of footwear. The upper includes a forefoot region, a heel region, a first side that extends between the forefoot and heel regions, and a second side that extends between the forefoot and heel regions. The knitted component includes a knit element and a tensile stand formed of unitary knit construction with the knit element. The knit element includes a front surface and a back surface. The knit element includes a first end and a second end. The knit element further includes a tubular rib structure that extends generally between the first end and the second end. The tubular rib structure includes an open end disposed proximate the second end. The tensile element includes a first segment that is received within the tubular rib structure. The tensile element further includes a second segment that extends from the first segment and out of the open end. The tensile element further includes a third segment that extends from the first segment, out of the knit element from the front surface, and back into the knit element through the front surface. The first end of the knit element is configured to be fixed at the second side of the upper. The second end of the knit element is configured to be fixed at the second side of the upper. The first segment is configured to extend through the tubular rib structure from the first side, across the heel region, to the second side of the upper. The second segment is configured to be fixed relative to the knit element on the second side of the upper. The first segment is configured to be disposed on the first side of the upper.
Moreover, a method of forming an upper for an article of footwear is disclosed. The method includes forming a textile component that includes a textile element and a tensile element. The textile element includes a front surface and a back surface, a first end and a second end, and a tubular rib structure that extends generally between the first end and the second end. The method further includes routing the tensile element such that a first segment of the tensile element is received within the tubular rib structure. Moreover, the method includes routing the tensile element such that a second segment of the tensile element extends from the first segment and out of an open end of the tubular rib structure. Additionally, the method includes routing the tensile element such that a third segment of the tensile element extends from the first segment, out of the textile element from the front surface, and back into the textile element through the front surface. Furthermore, the method includes assembling the textile component to define a first side, a forefoot region, a second side, and a heel region of the upper. Assembling the textile component includes wrapping the textile component from the second side, across the forefoot region, across the first side, across the heel region, and back to the second side. Assembling the textile component also includes providing the first end of the textile element at the second side of the upper, and providing the second end of the textile element at the second side of the upper. Moreover, assembling the textile component includes extending the first segment through the tubular rib structure from the first side, across the heel region, to the second side of the upper. Furthermore, assembling the textile component includes fixing the second segment relative to the textile element on the second side of the upper. Still further, assembling the textile component includes providing the first segment on the first side of the upper.
Other systems, methods, features and advantages of the embodiments will be, or will become, apparent to one of ordinary skill in the art upon examination of the following figures and detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description and this summary, be within the scope of the embodiments, and be protected by the following claims.
The present disclosure can be better understood with reference to the following drawings and description. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the present disclosure. Moreover, in the figures, like reference numerals designate corresponding parts throughout the different views.
The following discussion and accompanying figures disclose a variety of concepts relating to articles of footwear. Footwear can include an upper that is at least partially defined by a textile component. The textile component can provide advantageous fit and flexibility for the wearer's foot. For example, in some embodiments, the textile component can conform to the wearer's foot and can flex to support movement of the wearer's foot.
Additionally, the textile component can include a tensile element that transfers forces across the textile component for supporting the wearer's foot. The tensile element can also affect flexure and/or stretching of the upper. For example, the tensile element can limit excessive flexing and/or stretching of the textile element in some embodiments.
Moreover, in some embodiments, an input force applied to one side of upper can be transferred and/or distributed to the opposite side of upper. In some embodiments, this can cause upper to flex generally in an inward direction to compress the foot when running, jumping, changing directions, or during other ambulatory activities. As such, the upper can be securely fit to the wearer's foot and can support a wide variety of activities.
General Discussion of Article of Footwear
Referring initially to
For reference purposes, footwear 100 may be divided into three general regions: a forefoot region 111, a midfoot region 112, and a heel region 114. Forefoot region 111 can generally include portions of footwear 100 corresponding with forward portions of the wearer's foot, including the toes and joints connecting the metatarsals with the phalanges. Midfoot region 112 can generally include portions of footwear 100 corresponding with middle portions of the wearer's foot, including an arch area. Heel region 114 can generally include portions of footwear 100 corresponding with rear portions of the wearer's foot, including the heel and calcaneus bone.
Footwear 100 can also include a lateral side 115 and a medial side 117. Lateral side 115 and medial side 117 can extend through forefoot region 111, midfoot region 112, and heel region 114 in some embodiments. Lateral side 115 and medial side 117 can correspond with opposite sides of footwear 100. More particularly, lateral side 115 can correspond with an outside area of the wearer's foot (i.e. the surface that faces away from the other foot), and medial side 117 can correspond with an inside area of the wearer's foot (i.e., the surface that faces toward the other foot).
Forefoot region 111, midfoot region 112, heel region 114, lateral side 115, and medial side 117 are not intended to demarcate precise areas of footwear 100. Rather, forefoot region 111, midfoot region 112, heel region 114, lateral side 115, and medial side 117 are intended to represent general areas of footwear 100 to aid in the following discussion.
Footwear 100 can also extend along various directions. For example, as shown in
Embodiments of sole structure 110 will now be discussed with reference to
Also, sole structure 110 can include a ground-engaging surface 104. Ground-engaging surface 104 can also be referred to as a ground-contacting surface. Furthermore, sole structure 110 can include an upper surface 108 that faces the upper 120. Stated differently, upper surface 108 can face in an opposite direction from the ground-engaging surface 104. Moreover, sole structure 110 can include a peripheral side surface 109. In some embodiments, peripheral side surface 109 can extend in the vertical direction 107 between upper surface 108 and ground engaging surface 104. In some cases, peripheral side surface 109 can extend at least partially around an outer periphery of footwear 100, including extending through at least a portion of one or more of heel region 114, midfoot region 112, and forefoot region 111. Also, in some embodiments, peripheral side surface 109 can extend continuously from heel region 114, along medial side 117, across forefoot region 111, along lateral side 115, and back to heel region 114. In various embodiments, the height of peripheral side surface 109 along the vertical direction 107 may vary. In some cases, the height may be substantially similar along a majority of peripheral side surface 109. In other cases, portions of peripheral side surface 109 may be larger or smaller across different portions of peripheral side surface 109 extending through one or more of heel region 114, midfoot region 112, or forefoot region 111.
Moreover, sole structure 110 can include an attachment area 103 where sole structure 110 is attached to upper 120. As shown, attachment area 103 can be defined on upper surface 108, proximate peripheral side surface 109. In additional embodiments, attachment area 103 can be defined on peripheral side surface 109.
In some embodiments, sole structure 110 can include a midsole and an outsole. Midsole can include a resiliently compressible material, fluid-filled bladders, and the like. As such, midsole can cushion the wearer's foot and attenuate impact and other forces when running, jumping, and the like. Outsole can be secured to the midsole and can include a wear resistant material, such as rubber and the like. Outsole can also include tread and other traction-enhancing features for ground engaging surface 104.
Embodiments of upper 120 will now be discussed in greater detail with reference to
Upper 120 can additionally include a lower portion 125 that is attached to sole structure 110. As such, lower portion 125 of upper 125 can be fixed to attachment area 103 of sole structure 110. In some embodiments, lower portion 125 of upper 120 can be defined on a lower periphery of upper 120 and can extend about the wearer's foot. Also, in some embodiments, lower portion 125 of upper 120 can extend between the medial side 117 and the lateral side 115 and/or between the heel region 114 and the forefoot region 11, underneath the wearer's foot.
Upper 120 can also include a collar 124. Collar 124 can include a collar opening 126 that is configured to allow passage of the wearer's foot during insertion or removal of the foot from the void 122.
Upper 120 can also include a throat 128. Throat 128 can extend along a throat axis 101 from collar opening 126 toward forefoot region 111. Throat 128 can extend over the foot and can be defined between the first lateral side 115 and the medial side 117. Dimensions of throat 128 can be varied to change the width of footwear 100 between lateral side 115 and medial side 117. Thus, throat 128 can affect fit and comfort of article of footwear 100.
In some embodiments, such as the embodiment of
Footwear 100 can additionally include a securement device 127 as shown in
Many conventional footwear uppers are formed from multiple material elements that are joined through stitching or bonding, for example. In contrast, at least a portion of upper 120 can be formed and defined by a textile component, such as a knitted component 130. Knitted component 130 can be formed of unitary knit construction.
In other embodiments, upper 120 can be at least partially defined by a structure that is similar to knitted component 130, but that is formed using a different material. For example, upper 120 can be defined by other types of textile components, such as a woven structure. It further embodiments, upper 120 can be formed and defined by non-textile materials, such as leather, polymer, or other types of materials. Moreover, upper 120 can be defined by a structure that is assembled from two or more pieces that are joined together (i.e., a non-unitary structure).
In some embodiments, knitted component 130 can define at least a portion of void 122 within upper 120. Also, in some embodiments, knitted component 130 can define at least a portion of exterior surface 123. Furthermore, in some embodiments, knitted component 130 can define at least a portion of interior surface 121 of upper 120. Additionally, in some embodiments, knitted component 130 can define a substantial portion of heel region 114, midfoot region 112, forefoot region 111, medial side 117, and lateral side 115 of upper 120. Thus, knitted component 130 can encompass the wearer's foot in some embodiments. Also, in some embodiments, knitted component 130 can compress the wearer's foot to secure to the wearer's foot.
Thus, upper 120 can be constructed with a relatively low number of material elements. This can decrease waste while also increasing the manufacturing efficiency and recyclability of upper 120. Additionally, knitted component 130 of upper 120 can incorporate a smaller number of seams or other discontinuities. This can further increase manufacturing efficiency of footwear 100. Moreover, interior surface 121 of upper 120 can be substantially smooth and uniform to enhance the overall comfort of footwear 100.
As stated, knitted component 130 can be formed of unitary knit construction. As used herein and in the claims, a knitted component (e.g., knitted component 130, or other knitted components described herein) is defined as being formed of “unitary knit construction” when formed as a one-piece element through a knitting process. That is, the knitting process substantially forms the various features and structures of knitted component 130 without the need for significant additional manufacturing steps or processes. A unitary knit construction may be used to form a knitted component having structures or elements that include one or more courses of yarn or other knit material that are joined such that the structures or elements include at least one course in common (i.e., sharing a common yarn) and/or include courses that are substantially continuous between each of the structures or elements. With this arrangement, a one-piece element of unitary knit construction is provided.
Although portions of knitted component 130 may be joined to each other (e.g., edges of knitted component 100 being joined together) following the knitting process, knitted component 130 remains formed of unitary knit construction because it is formed as a one-piece knit element. Moreover, knitted component 130 remains formed of unitary knit construction when other elements (e.g., a lace, logos, trademarks, placards with care instructions and material information, structural elements) are added following the knitting process.
In different embodiments, any suitable knitting process may be used to produce knitted component 130 formed of unitary knit construction, including, but not limited to a flat knitting process, such as warp knitting or weft knitting, as well as a circular knitting process, or any other knitting process suitable for providing a knitted component. Examples of various configurations of knitted components and methods for forming knitted component 130 with unitary knit construction are disclosed in U.S. Pat. No. 6,931,762 to Dua; and U.S. Pat. No. 7,347,011 to Dua, et al., the disclosure of each being incorporated by reference in its entirety. Knitted component 130 can also include one or more features disclosed in U.S. Provisional Patent Application No. 62/057,264, filed on Sep. 30, 2014, which was filed as U.S. Nonprovisional patent application Ser. No. 14/535,413 on Nov. 7, 2014, and entitled “Article of Footwear Incorporating A Knitted Component with Inlaid Tensile Elements and Method of Assembly”, the disclosure of which applications are hereby incorporated by reference in its entirety.
Knitted component 130 can generally include a knit element 131. Knit element 131 can also be referred to as a “textile element.” Knitted component 130 can also generally include at least one tensile element 132. Knit element 131 and tensile element 132 can be formed of unitary knit construction.
As will be discussed, knit element 131 can define relatively large areas of upper 120. The knit construction of knit element 131 can provide the upper with advantageous flexibility, elasticity, resiliency, and stretchiness in some embodiments. Accordingly, the knit element 131 and the upper 120 can be comfortable to wear. Also, the knit element 131 can allow the wearer's foot to flex and move within the upper 120 without compromising comfort. Moreover, the tensile elements 132 can be routed across knit element 131 in predetermined areas to provide increased support and strength to those areas. Additionally, the tensile elements 132 can transfer forces and/or distribute forces across the knit element 131 in a predetermined manner. Accordingly, forces input to the knit element 131 at one area can transfer across the knit element to another area. In some embodiments, this can cause the knit element 131 and, thus, the upper 120 to compress against the wearer's foot for added support and comfort during running, jumping, changing directions, or other movements.
Embodiments of Knit Element
Knit element 131 will now be discussed in greater detail according to exemplary embodiments. Knit element 131 is shown in a disassembled, substantially flat position in
When disassembled as shown in
Generally, knit element 131 can include a first end 134 and a second end 136. First end 134 and second end 136 are spaced apart from each other generally in the first direction 133. Knit element 131 can also include a top edge 138 and a bottom edge 140. Top edge 138 and bottom edge 140 can each extend between first end 134 and second end 136, and top edge 138 and bottom edge 140 can be spaced apart from each other generally in the second direction 135.
Moreover, knit element 131 can include a front surface 142 and a back surface 144. Front surface 142 and back surface 144 can be opposite each other along third direction 137. Also, a thickness 145 of knit element 131 can be measured between front surface 142 and back surface 144, generally in the third direction 137.
Knit element 131 can also be subdivided into various portions. For example, knit element 131 can include a first portion 146, a second portion 148, and a third portion 150, which are arranged generally along the first direction 133. Each of these portions can define respective areas of upper 120 as will be discussed.
In some embodiments illustrated in
Also, second end 136 can exhibit a relatively high degree of curvature in some embodiments. For example, second end 136 can be convexly curved in some embodiments. More specifically, second end 136 can extend between a first transition 141 and a second transition 143. First transition 141 can be disposed closer to first end 134 (relative to first direction 133) than second transition 143. Also, second end 136 can curve convexly from first transition 141 to second transition 143.
Additionally, top edge 138 can be uneven and/or curved in some embodiments. For example, regions of knit element 131 proximate top edge 138 can include one or more projections. Additionally, regions of knit element 131 proximate top edge 138 can include one or more notches, recesses, or other openings. Specifically, as shown in
In some embodiments, front surface 142 and/or back surface 144 of knit element 131 can be substantially flat. In other embodiments, front surface 142 and/or back surface 144 can include waves, bumps, ribs, raised areas, or recessed areas.
For example, as shown in
Additionally, in some embodiments, one or more tubular rib structures 162 can be hollow so as to define a passage 166. In some embodiments, the passage 166 can extend along the majority of the length of the respective tubular rib structure 162.
Passages 166 can have any suitable cross sectional shape. For example, as shown in
Tubular rib structures 162 can be routed in any suitable direction across knit element 131. Moreover, tubular rib structures 162 can be included in any suitable location on knit element 131. For example, in some embodiments represented in
Also, tubular rib structures 162 can include one or more openings. For example, as shown in
Additionally, in some embodiments, knit element 131 can include one area that includes tubular rib structures 162 and another area that does not. For example, as shown in
One or more areas of knit element 131 can be flexible, resilient, elastic, and stretchable in some embodiments. For example, as shown in
In some embodiments, the stretchability and resiliency of knit element 131 can be at least partly due to the knitted structure of knit element 131. In additional embodiments, the stretchability and resiliency can be at least partly due to the elasticity and stretchability of the yarn(s) used to form knit element 131. For example, one or more yarns of knit element 131 can be made from elastane or other resilient, stretchable material. Thus, in some embodiments, at least some yarns of knit element 131 can be resiliently stretched in length from a first length to second length, wherein the second length is at least 20% greater than the first length. When the stretching force is removed, the yarn of knit element 131 can recover back to its unstretched, neutral length.
Additionally, in some embodiments, some portions of knit element 131 can be more elastic than other portions. For example, webs 164 of knit element 131 can be more elastic than tubular rib structures 162 in some embodiments. Furthermore, in some embodiments, smooth area 171 of knit element 131 can be more elastic than the wavy area 169 of knit element 131.
It will be appreciated that upper 120 can include other structures that are similar in some respects to knit element 131, but these structures can differ in other respects. For example, upper 120 can include a non-knitted structure that defines a tunnel, tube, or other hollow passageway, similar to passages 166. Moreover, upper 120 can include a structure assembled from multiple parts (i.e., a non-unitary structure) that defines a tunnel, tube, or other hollow passageway. Additionally, in some embodiments, upper 120 can be at least partially defined by so-called “spacer knit” fabric having two overlapping layers that are attached by transverse yarns that extend between the layers. In these embodiments, passages can be defined between the two overlapping knit layers and between separated transverse yarns.
Embodiments of Tensile Elements
Referring now to
Tensile element 132 can be of any suitable type of strand, yarn, cable, cord, filament (e.g., a monofilament), thread, rope, webbing, or chain, for example. In comparison with the yarns of knit element 131, the thickness of tensile element 132 may be greater. Although the cross-sectional shape of tensile element 132 may be round, triangular, square, rectangular, elliptical, or irregular shapes may also be utilized. Moreover, the materials forming tensile element 132 may include any of the materials for the yarn of knit element 131, such as cotton, elastane, polyester, rayon, wool, and nylon. As noted above, tensile element 132 may exhibit greater stretch-resistance than knit element 131. As such, suitable materials for tensile element 132 may include a variety of engineering filaments that are utilized for high tensile strength applications, including glass, aramids (e.g., para-aramid and meta-aramid), ultra-high molecular weight polyethylene, and liquid crystal polymer. As another example, a braided polyester thread may also be utilized as tensile element 132.
Tensile element 132 and other portions of knitted component 130 can additionally incorporate the teachings of one or more of commonly-owned U.S. patent application Ser. No. 12/338,726 to Dua et al., entitled “Article of Footwear Having An Upper Incorporating A Knitted Component”, filed on Dec. 18, 2008 and published as U.S. Patent Application Publication Number 2010/0154256 on Jun. 24, 2010; U.S. patent application Ser. No. 13/048,514 to Huffa et al., entitled “Article Of Footwear Incorporating A Knitted Component”, filed on Mar. 15, 2011 and published as U.S. Patent Application Publication Number 2012/0233882 on Sep. 20, 2012; U.S. patent application Ser. No. 13/781,336 to Podhajny, entitled “Method of Knitting A Knitted Component with a Vertically Inlaid Tensile Element”, filed on Feb. 28, 2013 and published as U.S. Patent Publication No. 2014/0237861 on Aug. 28, 2014, each of which is hereby incorporated by reference in its entirety.
Tensile elements 132 can be attached and incorporated with knit element 131 in any suitable manner. For example, tensile elements 132 can be received or enclosed within element 131 to attach tensile elements 132 to element 131. More specifically, in some embodiments, tensile elements 132 can extend through a tube, channel, tunnel, or other passage defined by element 131. Tensile elements 132 can also be disposed between separate layers of element 131 or otherwise enclosed by element 131.
In some embodiments, tensile elements 132 can be inlaid within a course or wale of knit element 131. In additional embodiments, such as the embodiments of
Furthermore, as mentioned above, upper 120 can be defined substantially from a non-knit structure and/or from a non-unitary structure assembled from pieces that are joined together. It will be appreciated that these structures can define elongate, hollow tubes or passages that receive tensile elements 132 to incorporate tensile elements 132 in footwear 100.
Tensile element 132 can extend through any number of the tubular rib structures 162. For example, as shown in the embodiment of
In some embodiments, a single, continuous section of tensile element 132 can extend through multiple passages 166. In other embodiments, different, individual tensile elements 132 extend through different tubular rib structures 162.
Moreover, in some embodiments, tensile elements 132 can extend along a portion of the passage 166. In other embodiments, tensile elements 132 can extend along substantially the entire passage 166.
Additionally, in some embodiments, tensile element 132 can extend primarily along the first direction 133 relative to knit element 131. Furthermore, in some embodiments, tensile element 132 can extend in second direction 135 and/or third direction 137.
Furthermore, in some embodiments, portions of tensile stands 132 can extend out of the respective passages 166 and can be exposed from knit element 131. Still further, in some embodiments, tensile element 132 can extend out from knit element 131 and can re-enter knit element 131. As such, a loop or other similar feature can be defined by tensile element 132, between the exit and re-entry point of tensile element 132. In some embodiments, tensile element 132 can extend out from one passage 166 and re-enter a different passage 166 so as to define a loop or similar structure.
Tensile elements 132 can be routed across knit element 131 in predetermined areas. Tension within tensile element 132 can be transferred, via the tensile element 132, from one area of knit element 131 to another. As such, the tensile element 132 can distribute forces across knit element 131 in a predetermined and advantageous manner. Moreover, because of the routing of the tensile element 132, the tensile element 132 can limit stretching and/or flexure of the knit element 131 in a predetermined manner. Moreover, tensile elements 132 can be routed to define loops or other structures that serve to attach shoelace 129 or other securement device 127 to knit element 131.
As shown in
In some embodiments, first tensile element 200 can extend across knit element 131 primarily within first portion 146. First end 202 and second end 204 of first tensile element 200 can extend out from and can be exposed from first end 134 of knit element 131. Intermediate portion 206 of first tensile element 200 can continuously extend through portions of a first tubular rib structure 216, a second tubular rib structure 218, a third tubular rib structure 220, a fourth tubular rib structure 224, a fifth tubular rib structure 226, a sixth tubular rib structure 228, and a seventh tubular rib structure 230. More specifically, first tensile element 200 can extend into first open end 190 of first tubular rib structure 216, along the first direction 133, toward first intermediate opening 194 of first tubular rib structure 216. First tensile element 200 can also exit first intermediate opening 194 of first tubular rib structure 216, turn back toward first intermediate opening 194, and re-enter first intermediate opening 194. First tensile element 200 can further extend back along first tubular rib structure 216, along the first direction 133, and exit the first open end 190 of first tubular rib structure 216. Additionally, first tensile element 200 can extend generally in the second direction 135 toward the top edge 138 and re-enter knit element 131 via second tubular rib structure 218. This routing pattern can be repeated as first tensile element 200 extends through second tubular rib structure 218, third tubular rib structure 220, fourth tubular rib structure 224, fifth tubular rib structure 226, sixth tubular rib structure 228, and seventh tubular rib structure 230. In some embodiments, first tensile element 200 can terminate at second end 204, which can extend out from first open end 190 of seventh tubular rib structure 230.
Routed as such, first tensile element 200 can define a plurality of first inner loop segments 232, where strand 200 exits and re-enters intermediate openings 194. Also, first tensile element 200 can define a plurality of first outer loop segments 234, where strand 200 exits open end 190 of one tubular rib structure 162 and re-enters open end 190 of another tubular rib structure 162. Furthermore, strand 200 can define a plurality of first intermediate segments 236, where strand 200 extends between respective inner and outer segments 232, 234.
As will be discussed and as shown in
In some embodiments, second tensile element 208 can have features corresponding to first tensile element 200, except that second tensile element 208 can extend across knit element 131 primarily within second and third portions 148, 150. First end 210 and second end 212 of second tensile element 208 can extend out from and can be exposed from second end 136 of knit element 131. Intermediate portion 214 of second tensile element 208 can continuously extend through portions of tubular rib structures 216, 218, 220, 224, 226, 228, 230. More specifically, second tensile element 208 can extend into second open end 192 of first tubular rib structure 216, along the first direction 133, toward second intermediate opening 196 of first tubular rib structure 216. Second tensile element 208 can also exit second intermediate opening 196 of first tubular rib structure 216, turn back toward second intermediate opening 196, and re-enter second intermediate opening 196. Second tensile element 208 can further extend back along first tubular rib structure 216, along the first direction 133, and exit the second open end 192 of first tubular rib structure 216. Additionally, second tensile element 208 can extend generally in the second direction 135 toward the top edge 138 and re-enter knit element 131 via second tubular rib structure 218. This routing pattern can be repeated as second tensile element 208 extends through second tubular rib structure 218, third tubular rib structure 220, fourth tubular rib structure 224, fifth tubular rib structure 226, sixth tubular rib structure 228, and seventh tubular rib structure 230. In some embodiments, second tensile element 208 can terminate at second end 212, which can extend out from second open end 192 of seventh tubular rib structure 230.
Routed as such, second tensile element 208 can define a plurality of second inner loop segments 238, where strand 208 exits and re-enters intermediate openings 196. Also, second tensile element 208 can define a plurality of second outer loop segments 240, where strand 208 exits open end 192 of one tubular rib structure 162 and re-enters open end 192 of another tubular rib structure 162. Furthermore, strand 208 can define a plurality of second intermediate segments 242, where strand 208 extends between respective inner and outer segments 238, 240.
As will be discussed and as shown in
In some embodiments, the first inner loop segments 232 can be arranged in a first row 244, and/or the second inner loop segments 238 can be arranged in a second row 246. First row 244 and second row 246 can be substantially parallel and spaced apart generally in the first direction 133 in some embodiments. Also, first row 244 and second row 246 can extend substantially between the top edge 138 and the bottom edge 140. Moreover, first row 244 and second row 246 can be disposed at an angle relative to the second direction 135. As such, a bottom end 250 of first row 244 can be disposed closer to first end 134 than a top end 248 of first row 244. Second row 246 can be disposed at a corresponding angle.
Also, the knit element 131 can include a throat area 252, which is disposed between first row 244 and second row 246. In some embodiments, tensile elements 132 can be absent from throat area 252. As such, throat area 252 of knitted component 130 can exhibit increased elasticity as compared to areas where tensile elements 132 are present. Also, as will be discussed, throat area 252 can at least partially define and correspond to throat 128 of article of footwear 100.
Embodiments of Assembly of Knitted Component and Upper
Knitted component 130, such as the embodiment illustrated in
Additional details relating to the knitting process for forming knitted component 130 can be found in U.S. Provisional Patent Application No. 62/057,264, filed on Sep. 30, 2014, which was filed as U.S. Nonprovisional patent application Ser. No. 14/535,413 on Nov. 7, 2014, and entitled “Article of Footwear Incorporating A Knitted Component with Inlaid Tensile Elements and Method of Assembly”, the disclosure of which applications are hereby incorporated by reference in its entirety.
Once knitted component 130 has been formed, additional objects can be attached, such as logos, tags, and the like. Moreover, knitted component 130 can be heated, for example, using steam. Subsequently, knitted component 130 can be assembled to define upper 120 of article of footwear 100.
In
As shown in
Then, as shown in
Next, as shown in
As shown in
Next, in some embodiments represented in
In some embodiments, when lower panel 185 and/or sole structure 110 is attached, first outer loop segments 234 and second outer loop segments 240 (see
Finally, shoelace 129 can be attached to knitted component 130. For example, as shown in
Accordingly, when upper 120 is assembled, tensile elements 132 can be disposed in predetermined areas relative to the wearer's foot. As such, tensile elements 132 can provide stretch resistance in certain areas of upper 120, can transfer forces across upper 120 for improving fit and performance of footwear 100, and/or can provide other advantages.
More specifically, as shown in
Furthermore, as shown in
Moreover, as shown in
Additionally, as shown in
Also, forces can be transferred from one tensile element to another via shoelace 129. For example, when an input force is applied to the lateral side 115, first tensile element 200 can transfer the force from lateral side 115 to shoelace 129. Shoelace 129 can, in turn, transfer this force to second tensile element 208. As a result, second tensile element 208 can transfer this force along medial side 117, across heel region 114, back to lateral side 115. Thus, the forces can be effectively distributed across a relatively large area of footwear 100. Also, tensile elements 200, 208 can constrict and/or compress knit element 131 toward the wearer's foot as a result of the force transfer. Accordingly, footwear 100 can provide a high degree of support, for example, when the wearer cuts, pushes off the ground, or otherwise moves the foot.
Additional Embodiments of Footwear
Referring now to
As shown, footwear 300 can generally include sole structure 310 and upper 320. Upper 320 can be defined at least partially by knitted component 330. Knitted component 330 can include a knit element 331 and one or more tensile elements 332.
In some embodiments represented in
As shown in
Similarly, second anchoring member 462 can include a top end 470 and a bottom end 472. In some embodiments, top end 470 can include a plurality of projections 474 that are separated by respective openings 469. Furthermore, bottom end 472 can be attached to lower portion 325 on medial side 317.
In some embodiments, tensile elements 332 of knitted component 330 can include a first tensile element 400. First tensile element 400 can be disposed on footwear 100 generally similar to the embodiment of first tensile element 200 described above. However, first tensile element 400 can include a plurality of independent segments that are disposed generally on lateral side 315 and that extend generally between sole structure 310 and throat 328. Also, at least one or more of these segments of first tensile element 400 can extend through tubular rib structures 362.
Specifically, a representative segment 495 of first tensile element 400 is indicated in
Additionally, tensile elements 332 of knitted component 330 can include a second tensile element 408. Second tensile element 408 can be disposed on footwear 100 generally similar to the embodiment of second tensile element 208 described above. However, second tensile element 408 can include a plurality of independent segments that extend generally from medial side 317, across heel region 314, to lateral side 415. Also, these segments of second tensile element 408 can extend from throat 328 on medial side 317, across heel region 314, to lower portion 325 and sole structure 310 on lateral side 315. Additionally, at least one or more of these segments of second tensile element 408 can extend through tubular rib structures 362.
Specifically, a representative segment 476 of second tensile element 408 is indicated in
First end 480 and second end 482 can be exposed from first end 334 of knit element 431. Intermediate section 484 can extend through multiple tubular rib structures 362 as it extends back and forth between first end 334 and second end 336.
Once formed as shown in
As shown in
Accordingly, footwear 300 can achieve similar advantages to those discussed above with respect to footwear 100. In addition, first and second anchoring members 460, 462 can provide additional support for lateral side 315 and medial side 317. Anchoring members 460, 462 can further provide a secure and convenient means for attaching tensile elements 332 to lower portion 325 and/or sole structure 310.
While various embodiments of the present disclosure have been described, the description is intended to be exemplary, rather than limiting, and it will be apparent to those of ordinary skill in the art that many more embodiments and implementations are possible that are within the scope of the present disclosure. Accordingly, the present disclosure is not to be restricted except in light of the attached claims and their equivalents. Also, various modifications and changes may be made within the scope of the attached claims.
The present patent document is a continuation application of U.S. patent application Ser. No. 15/807,116, filed Nov. 8, 2017, now U.S. Pat. No. 10,477,920 issued Nov. 19, 2019, which is a continuation application of U.S. patent application Ser. No. 14/880,707, filed Oct. 12, 2015, now U.S. Pat. No. 9,826,798 issued Nov. 28, 2017, which is a continuation application of U.S. patent application Ser. No. 14/535,648, filed Nov. 7, 2014, now U.S. Pat. No. 9,192,204 issued Nov. 24, 2015, which claims the benefit of the filing date of U.S. Provisional Patent Application Ser. No. 62/057,264 filed on Sep. 30, 2014, and of U.S. Provisional Patent Application Ser. No. 62/057,650, filed Sep. 30, 2014. All of the foregoing applications are hereby incorporated by reference in their entirety.
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Number | Date | Country | |
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20200077745 A1 | Mar 2020 | US |
Number | Date | Country | |
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62057264 | Sep 2014 | US | |
62057650 | Sep 2014 | US |
Number | Date | Country | |
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Parent | 15807116 | Nov 2017 | US |
Child | 16686413 | US | |
Parent | 14880707 | Oct 2015 | US |
Child | 15807116 | US | |
Parent | 14535648 | Nov 2014 | US |
Child | 14880707 | US |