巴西专利BR112016004547B1 shoe item incorporating a mesh component with an integral mesh anklet

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专利摘要:
FOOTWEAR ITEM THAT INCORPORATES A KNITTED COMPONENT WITH AN INTEGRAL KNITTED ANKLET. It is a shoe item with a mesh component, which includes a shoe and an integral mesh anklet that is provided. The upper and the anklet are formed as a one-piece knitted element. The mesh element forms a part of an outer surface of the upper and an opposite inner surface of the upper, with the inner surface forming an empty space for receiving a foot. The anklet is formed of unitary construction with the upper mesh, as a one-piece mesh element and extends above a breather area of the upper. The anklet includes malleolar zones on the medial and lateral sides to match a user's ankle bones. The mesh component even incorporates features to help provide input to a user's foot, provide comfort to a user, and assist in guiding the upper of the shoe when in use.
公开号:BR112016004547B1
申请号:R112016004547-5
申请日:2014-06-23
公开日:2021-02-09
发明作者:Denis Dekovic；John Droege；Windra Fahmi；Jeongwoo Lee；Daniel A. Podhajny；Karl Seamarks；Doug D. Wilken
申请人:Nike Innovate C.V；
IPC主号:

专利说明:

BACKGROUND OF THE INVENTION
[001] Conventional footwear items generally include two main elements, an upper and sole structure. The upper is fixed to the sole structure and forms a gap inside the shoe to receive a foot in a safe and comfortable way. The sole structure is fixed to a lower surface of the upper in order to be positioned between the upper and the floor, in some sports footwear items, for example, the sole structure may include the midsole and an outer sole. The midsole can be formed from a polymer foam material that attenuates the reaction forces of the ground to lessen the stresses on the foot and leg during walking, running and other ambulatory activities. The outer sole is attached to a lower surface of the midsole and forms a part of the ground structure of the sole that is formed from a durable and wear-resistant material. The sole structure can also include an insole positioned inside the gap and close to a lower surface of the foot to increase the comfort of the shoe.
[002] The upper generally extends across the instep and toe areas, along the medial and lateral sides of the foot, and around the heel area of the foot, in some footwear , such as basketball shoes and boots, the upper can extend up and around the ankle to provide support or protection for the ankle. Access to the gap inside the upper is generally provided by an opening in a region of the heel of the shoe. A shoelace system is often incorporated into the upper to adjust the fit of the upper, thus allowing the foot to enter and remove the gap inside the upper. The shoelace system also allows the user to modify certain dimensions of the upper, particularly the perimeter, to accommodate feet with varying dimensions. In addition, the upper may include a tongue that extends under the lacing system to improve the adjustability of the shoe article, and the upper may incorporate a heel buttress to limit heel movement.
[003] Various materials are conventionally used in the manufacture of gas-pea. The upper of sports shoes, for example, can be formed from multiple material elements. Materials can be selected based on different properties, which include stretch resistance, wear resistance, flexibility, air permeability, compressibility and moisture drainage, for example. With regard to an upper of the upper, the toe area and the heel area may be formed of leather, synthetic leather, or a rubber material to provide a relatively high degree of wear resistance. Leather, synthetic leather and rubber materials may not exhibit the desired degree of flexibility and air permeability for various other areas outside.
[004] Therefore, the other areas of the exterior can be formed from a synthetic fabric, for example. The outside of the upper can therefore be formed from numerous material elements that each give different properties to the upper. An intermediate or central layer of the upper can be formed from a lightweight polymer foam material that provides cushioning and improves comfort. Likewise, an upper of the upper can be formed of a comfortable, moisture-draining fabric that removes perspiration from the area immediately surrounding the foot. The various material elements and other components can be joined with an adhesive or by sewing. Consequently, the conventional upper is formed from several elements of material, each giving different properties for different areas of the shoe article. SUMMARY
[005] Various configurations of a shoe item may have a upper and sole structure attached to the upper, a mesh component, which includes a upper and an integral mesh ankle bracelet is incorporated in the shoe article. The upper and the anklet in integral mesh are formed as a single-piece mesh element. The mesh element defines a part of an outer surface of the upper and an inner opposite surface of the upper, with the inner surface defining a gap to receive a foot. The integral mesh anklet is formed by the unitary construction with the upper mesh, as a one-piece mesh element and extends above a breather area of the upper. The mesh component incorporates features to assist in the entry of a user's foot, providing comfort to a user, and to assist in guiding the upper of the shoe when in use.
[006] In one aspect, the invention provides an article of footwear that has an upper and sole structure attached to the upper, the upper that includes a mesh component that is formed of unitary mesh construction, the mesh component that includes : a region of the foot that forms the most substantial part of the upper, the region of the foot that extends through an anterior region, a medial region of the foot and a region of the heel of the shoe, the region of the foot that includes an area instep extending between a medial side and a lateral side of the upper; a region of the ankle that forms a part of the upper that extends above the region of the foot, the region of the ankle that includes an anklet that defines a breather opening of a gap within the upper for the reception of a foot; wherein the anklet is formed of unitary mesh construction with at least the instep area of the foot region and a part of the foot region arranged on the medial and lateral side in the heel region; and wherein the anklet further comprises at least one mallolar zone arranged on at least one on the medial side and the lateral side of the upper, at least one malleolar zone which includes a plurality of recesses in an external surface of the anklet.
[007] In another aspect, the invention provides an article of footwear that has a upper and sole structure attached to the upper, the upper that includes a mesh component that is formed of unitary mesh construction, the mesh component that includes : a region of the foot that forms the most substantial part of the upper, the region of the foot that extends through an anterior region, a medial region of the foot, and a region of the heel of the footwear, the region of the foot that includes a instep area that extends between a medial side and a lateral side of the upper; a region of the ankle that forms a part of the upper that extends above the region of the foot, the region of the ankle that includes an anklet that defines a breather opening of a gap within the upper for the reception of a foot; the instep area which also includes a cushioning area surrounded by and formed of unitary mesh construction with the instep area, the cushioning area arranged between the medial side and the lateral side of the upper along a part top of the shoe article; the buffer zone being configured to stretch in a lateral direction along the shoe article between an unstretched condition and a stretched condition; and wherein the buffer zone has a first thickness in the unstretched condition and a second thickness in the stretched condition, the first thickness being greater than the second thickness.
[008] In another aspect, the invention provides a footwear article that has a upper and sole structure attached to the upper, the upper that includes a mesh component that is formed of unitary mesh construction, the mesh component that includes : a region of the foot that forms the most substantial part of the upper, the region of the foot that extends through an anterior region, a medial region of the foot, and a region of the heel of the footwear, the region of the foot that includes a instep area that extends between a medial side and a lateral side of the upper; a region of the ankle that forms a part of the upper that extends above the region of the foot, the region of the ankle that includes an anklet that defines a breather opening of a gap within the upper for the reception of a foot; and wherein the mesh component further comprises a shoelace receiving opening formed in at least one instep and ankle area, the shoelace receiving opening being configured to receive the loose ends of a shoelace tied within an interior of the upper.
[009] Other systems, methods, characteristics and advantages of the invention will be, or will become evident to one skilled in the art after reading the figures and detailed description below. It is intended that such systems, additional methods, features and advantages will be included within that description and in that summary, falling within the scope of the invention, and being protected by the claims to follow. BRIEF DESCRIPTION OF THE DRAWINGS
[010] The invention can be better understood with reference to the drawings and the description below. The components in the figures are not necessarily to scale, instead, emphasis is placed on illustrating the principles of the invention. In addition, in the figures, the same reference numbers indicate the corresponding parts throughout the different views.
[011] Figure 1 is an isometric view of an example of an article of footwear;
[012] figure 2 is a medial side view of the example modality of a shoe item;
[013] figure 3 is a side view of an example of a shoe article;
[014] figure 4 is a top plan view of an example modality of a shoe article;
[015] figure 5 is a top plan view of an example embodiment of a mesh component incorporated in a shoe upper;
[016] figure 6 is an enlarged front view of an example of an anklet made of a shoe article;
[017] figure 7 is an enlarged front view of an example of an anklet that includes an opening for receiving a lace;
[018] figure 8 is an enlarged front view of an example modality of an anklet that includes a mesh opening to receive a shoelace;
[019] figure 9 is an enlarged front view of an example modality of an anklet that includes an opening for receiving a lace shown in broken lines;
[020] figure 10 is an enlarged side view of an anklet that includes an exemplary embodiment of a malleolar zone;
[021] figure 11 is a cross-sectional view of an example modality of a malleolar zone considered along the line shown in figure 10;
[022] figure 12 is an enlarged side view of an anklet, which includes an example modality of a malleolar zone;
[023] figure 13 is an enlarged side view of an anklet that includes an example modality of a malleolar zone that undergoes stretching;
[024] figure 14 is an example of an article of footwear that includes an anklet with a malleolar zone;
[025] figure 15 is an example of an article of footwear that includes an anklet with a malleolar zone that has a user's foot inserted;
[026] figure 16 is an example of an article of footwear that includes an anklet with a malleolar zone with a user's foot arranged inside;
[027] figure 17 is an enlarged front view of an anklet that includes a feature to assist in orienting the upper;
[028] figure 18 is an enlarged front view of an anklet that includes an example of a buffer zone in an unstretched condition;
[029] figure 19 is an enlarged front view of an anklet that includes an example of a buffer zone in a stretched condition; and
[030] figure 20 is a representation view of an example loop diagram for the manufacture of a mesh component that incorporates a buffer zone. Detailed Description
[031] The discussion and accompanying figures below reveal a variety of concepts related to knitted components and the manufacture of knitted components. Although the mesh components can be used in a variety of products, a shoe item that incorporates one of the mesh components is described below as an example. Figures 1 to 20 illustrate an example of a shoe item that incorporates a mesh component, which includes an upper and an integral mesh anklet. The individual characteristics of the knitted component, as described here, can be used in combination or can be supplied separately in different footwear configurations, in addition, any of the characteristics can be optional and cannot be included in any modality of a mesh component.
[032] Figures 1 to 4 illustrate an example embodiment of a shoe article 100, also referred to simply as article 100. In some embodiments, the shoe article 100 may include a sole structure 110 and an upper 120. Although article 100 is illustrated as having a general configuration suitable for football, the concepts associated with article 100 can also be applied to a variety of other types of athletic footwear, which include baseball, basketball, cycling shoes, soccer shoes, sneakers, running shoes, training, walking shoes and boots, for example. The concepts can also be applied to types of footwear that are generally considered non-athletic, which include shoes, loafers, sandals and work boots. Therefore, the concepts described in relation to Article 100 can be applied to a wide variety of types of footwear.
[033] For reference purposes, article 100 can be divided into three general regions: the anterior region 10, a central part region of the foot 12, and a heel region 14, as shown in figures 1, 2 and 3 The anterior region 10, in general, includes parts of article 100 corresponding with the toes and the joints that connect the metatarsals with the phalanges. The medial region 12, in general, includes parts of the article 100 corresponding with an arched area of the foot. The heel region 14 corresponds, in general, with posterior parts of the foot, which include the calcaneus bone. Article 100 also includes a side face 16 and a medial side 18, which extend through each of the anterior region 10, the medial region 12, and the heel region 14 and correspond to the opposite sides of the article 100. More particularly , the side face 18 corresponds to an external area of the foot (that is, the surface that faces outwards from the other foot), and the medial side 18 corresponds to an interior area of the foot (that is, the surface that is facing the other foot). The anterior region 10, the medial region 12 and the heel region 14 and the lateral face 16, medial side 18 are not intended to demarcate precise areas of Article 100. On the contrary, the anterior region 10, the medial region 12, the region of the heel 14 and lateral face 16, the medial side 18 are intended to represent the general areas of article 100 to assist in the following discussion. In addition to article 100, the anterior region 10, the medial region 12, the heel region 14 and the lateral face 16, the medial side 18 can also be applied to the sole structure 110, the upper 120 and the individual elements thereof.
[034] In an example embodiment, a sole structure 110 is attached to the upper 120 and extends between the foot and the ground when article 100 is used. In some embodiments, the sole structure 110 may include one or more components, which include a midsole, an outer sole and / or an insole or insole, in an example embodiment, the sole structure 110 may include an outer sole. 112 which is attached to a lower surface of the upper 120 and / or a base part configured to support a sole structure 110 to the upper 120. In one embodiment, the outer sole 112 can be formed from a rubber material resistant to wear that is textured to provide traction, in this embodiment, the outsole 112 includes a plurality of clamp elements 114 that are configured to provide traction with a surface of the ground. Although this sole structure configuration 110 provides an example of a sole structure that can be used in conjunction with the upper 120, a variety of other conventional or unconventional configurations can also be used for sole structure 110. Thus, in other embodiments, the characteristics of a sole structure 10 or any sole structure used with the upper 120 may vary.
[035] For example, in other embodiments, the sole structure 110 may include a midsole and / or an insole. A midsole can be attached to a lower surface of an upper and, in some cases, can be formed from a compressible polymer foam element (for example, a polyurethane or ethyl vinyl acetate foam) that attenuates the forces of reaction on the ground (ie provides cushioning) when compressed between the foot and the ground during walking, running, or other outpatient activities. In other cases, the midsole may incorporate plates, moderators, liquid-filled chambers, long-lasting elements, or movement control members that further attenuate forces, increase stability or influence foot movements. In still other cases, the midsole can be formed, first of all from a fluid-filled chamber that is located inside an upper and is positioned to extend under a lower surface of the foot to increase the comfort of an article.
[036] In some embodiments, the upper 120 defines a gap within the article 100 to receive and secure a foot in relation to the sole structure 110. The gap is shaped to accommodate the foot and extends along a lateral side of the foot, along one medial side of the foot, on the foot, around the heel, and under the foot. The upper 120 includes an outer surface 121 and an opposite inner surface 122. While the outer surface 121 faces outward and away from article 100, the inner surface 122 faces inward and defines most or a relatively large portion of the span covered by article 100 to receive the foot. In addition, the inner surface 121 may be against the foot or a sock covering the foot. Access to the span is provided by a breather opening 140 located at least in the region of the heel 14. More particularly, the foot may be inserted into the upper 120 through the breather opening 140, and the foot may be removed from the upper 120 through the upper. vent opening 140. In some embodiments, an instep area 150 extends from the ankle opening 140 in the heel region 14 over an area that corresponds to a instep to an area adjacent to the anterior region of the foot 10.
[037] A lace 154 extends through several openings of the lace on the upper 120 and allows the user to change the dimensions of the upper 120 to match the proportions of the foot. More particularly, the lace 154 allows the user to tighten the upper 120 around the foot, and the lace 154 allows the user to loosen the upper 120 to facilitate the entry and removal of the foot from the gap (i.e., through opening breather 140). In addition, a portion of the upper 120 in the instep area 150 extends under the lace 154 to improve the comfort of the article 100. In more configurations, the upper 120 may include additional elements, such as: (a) a buttress of the heel, in the region of the heel 14, which increases stability, (b) a toe protection in the anterior region 10 that is formed by a material resistant to wear, and (c) logos, trademarks and posters with instructions for care and material information.
[038] In some embodiments, the lace 154 may extend through pairs of lace openings that are arranged along each side of the instep area 150. In an example embodiment, the lace opening pairs may include a plurality of openings 152 of the outer and inner shoelaces of a plurality of shoelace openings 153. The plurality of external shoelace openings 152 may be arranged in a first position along the instep area 150. The plurality of internal openings of shoelace 153 can be arranged at a second location along the instep area 150 which is situated further inward towards the middle of the upper 120 than the outer shoelace openings 152 on each of the lateral face 18 and the medial side 18. In addition, the location of the external shoelace openings 152 and internal shoelace openings 153 can be compensated along the instep area 150 in the longitudinal direction. With this configuration, the shoelace 154 can pass through an internal opening of the shoelace 153, extend under the mesh component 130 along the inner surface 122, and exit the mesh component 130 through an outer opening of the shoelace 152 to continue along the outer surface 121. Lace 154 may continue to pass through a plurality of openings 152, 153, thereby across the instep area 150.
[039] Many conventional shoe uppers are formed from various material elements (for example, fabrics, polymer foam, polymer sheets, leather, synthetic leather) that are joined together by sewing or gluing, for example. In contrast, in some embodiments, most of the upper 120 is formed from a 130 mesh component, which will be discussed in more detail below. The knitted component 130 can, for example, be manufactured using a sewing process and extends through each of the anterior region 10, the region of the central part of the foot 12 and the region of the heel 14, along both sides. lateral sides 18 and the medial side 18, over the anterior region 10, and around the heel region 14, in an example embodiment, the mesh component 130 forms substantially the entire upper 120, which includes the outer surface 121 and the most or relatively large part of the internal surface 122, thus defining a part of the gap inside the upper 120. In some embodiments, the mesh component 130 can also extend under the foot, in other embodiments, however, a sock of fabric or a thin-soled piece of material is attached to the mesh component 130 to form a base part of the upper 120 that extends under the foot in fixation with the thin-sole structure 110. In addition, a seam stretches vertically l through the heel region 14, as shown in figure 4, to join the edges of the mesh component 130.
[040] Furthermore, although the mesh component 130 forms both the outer surface 121 and the inner surface parts 122, in some embodiments, a polymer layer or a coating layer can be bonded with the mesh component areas 130 , as presented in US Serial No. 13 / 079,853 to Dua, entitled "Article Of Footwear Having A Knit Upper With A Polymer Layer", filed on April 4, 2011 and published on October 4, 2012, such as US Patent Application Publication 2012/0248973, the disclosure of which is hereby fully incorporated by reference.
[041] In some embodiments, Article 100 may include an anklet in full mesh 180 to cover at least part of a user's ankle. In addition to covering the foot, therefore, the upper 120 extends upwards and covers a part of the ankle. For reference purposes, the upper 120 can be divided into two general regions: the foot 20 region and an ankle region 30, as shown in figures 1, 2, and 3. The foot 20 region extends through each region anterior 10, intermediate region 12 and heel region 14 and, in general, encompasses the parts of the upper 120 that correspond to the foot. In many configurations of article 100, the foot region 20 corresponds to the parts of the upper 120 that are intended to be below the lateral malleolus and the middle malleolus (that is, the bony prominences on each side of the ankle) of the user. The ankle region 30 is located mainly in the heel region 14 and, in general, encompasses the parts of the upper 120 that correspond to the ankle. In many configurations of article 100, the ankle region 30 corresponds to the parts of the upper 120 that are intended to encompass and extend above the lateral malleolus and medial malleolus.
[042] In an example modality, a border region 200 separates the region of the foot 20, from the region of the ankle 30. In this modality, the border region 200 defines the part of the upper 120, where the ankle bracelet 180 begins to extending upwards from the foot region 20. In some embodiments, the border region 200 may demarcate the mesh component part 130, where the properties of the mesh structure associated with the anklet 160, for example, a type stitch, a type of yarn, or characteristics associated with different types of stitches or yarn types, which include aesthetics, stretch, thickness, air permeability, and abrasion resistance, can be varied from the remainder of the upper 120. It should be understood that, in some cases, the border region 200 may be visibly indicated on the upper 120 due to differences in the mesh structure or other evidence, in other cases, however, the border region 200 may not be visible in the gasp and 120 and the part of the upper 120 associated with the region of the foot 20 and the region of the ankle 30 may have a continuous appearance.
[043] The anklet 160 is located in the ankle region 30 and forms a part of the ankle of the mesh 130 component. The remaining part of the mesh component 130, which is located in the region of the foot 20, forms a base part of 130 mesh component. While the foot portion of the 130 mesh component covers the user's foot, the ankle portion of the 130 mesh component, which includes anklet 180, covers the user's ankle when item 100 is worn. In addition, the anklet 180 and the ankle part of the 130 mesh component can be formed of unitary mesh construction with the base part of the 130 mesh component.
[044] Although a seam may be present on the anklet 160, the ankle part of the knitted component 130 has a continuous structure that extends entirely around the user's ankle. With reference to the top plan view of figure 4, the anklet 160 forms a circular, oval or otherwise continuous and rounded vent opening 140 that gives access to the gap inside the upper 120. The vent opening 140 can be large in size relative conditions that allow the foot to pass into the gap. In some embodiments, the vent opening 140 may stretch to accommodate the foot. In addition, the anklet 180 may have dimensions that are smaller than an average ankle diameter. Therefore, the ankle strap 180 can remain slightly stretched and stand firmly against the torso-ankle once the foot is located within the gap. Accordingly, the ankle strap 180 and other parts of the knitted component 130 in the ankle region 30 can be formed to have stretch properties.
[045] In some embodiments, the mesh component 130 may include one or more features to assist the entry of a user's foot, providing comfort to a user, and to assist in guiding the upper of article 100 when used. In an example embodiment, the anklet 180 may include features that are configured to correspond to a user's lateral and medial malleolar bones, in one embodiment, the anklet 180 includes malleolar zone 184 arranged on each of the lateral side 16 and the medial side 18 of the upper 120. As described in more detail below, the malleolar zone 184 provides a mesh structure on the anklet 180 that allows greater elasticity and comfort for a user of the article 100. In addition, the malleolar zone 184 can help to maintain an orientation of the upper 120 on a user's foot through the cover and firmly fits the user's malleolar bones.
[046] In some embodiments, the knitted component 130 may also include a tied shoelace receiving opening 162. In an example embodiment, the tied shoelace receiving opening 182 can be arranged over a part of the chest area of the foot 150 and / or on the anklet 180 near or adjacent to the border region 200 between the region of the foot 20 and the region of the ankle 30. With this configuration, the tied shoelace receiving opening can be located approximately where the shoelace openings 152, 153 terminate in a top portion of a region of the upper of the shoelace 120. In one embodiment, the shoelace receiving opening 182 can be configured to receive a shoelace, for example, the shoelace 154.
[047] The mesh component 130 extends along the upper 120 and forms a part of the inner surface 122, thus defining a part of the gap inside the upper 120, although the seams may be present in the mesh component 130, the Most of the 130 mesh component has a substantially seamless shape configuration. In addition, the mesh component 130 can be formed of unitary mesh construction. As used herein, a mesh component (for example, the mesh component 130) is defined as being formed of "unitary mesh construction" when formed as a part element through a sewing process. That is, the sewing process substantially forms the various features and component structures in mesh 130 without the need for significant additional manufacturing steps or processes. A unitary mesh construction can be used to form a mesh component that has structures or elements that include one or more strands of yarn or other mesh material that are joined so that the structures or elements include at least one course in common ( that is, the sharing of a common thread) and / or courses include those that are substantially continuous between each of the structures or elements. With this arrangement, an element of a single mesh construction piece is provided.
[048] Although the mesh component parts 130 can be joined together (for example, the mesh component edges 130 being joined) following the sewing process, the mesh component 130 remains formed of unitary mesh construction because it is formed as a one-piece mesh element. In addition, the mesh component 130 remains formed of unitary mesh construction when other elements (for example, a cord, logos, trademarks, posters with care instructions and material information, structural elements) are added after the sewing process .
[049] Examples of various configurations of mesh components that can be used for mesh component 130 are disclosed in U.S. Patent No. 6,931,762 to Dua; in U.S. Patent No. 7,347,011 to Dua, et al .; in US Patent Application Publication 2008/0110048 to Dua, et al .; in U.S. Patent Application Publication 2010/0154258 to Dua; and in US Patent Application Publication 2012/0233882 to Huffa, et al., the disclosures of each of which are incorporated herein entirely by reference.
[050] The primary elements of the knitted component 130 are a knitted element 131 and a built-in cord 132, the knitted element 131 is formed from at least one thread that is manipulated (for example, with a sewing machine) to form a plurality of juxtaposed loops that define a variety of courses and chairs. That is, the mesh elements 131 have the structure of a mesh fabric. Embedded strand 132 extends through mesh element 131 and passes between the various circuits within mesh element 131. Although embedded wire 132 generally extends along courses within mesh element 131, embedded wire 132 it can also extend along chains within 131 mesh element.
[051] The advantages of embedded wire 132 include providing support, stability and structure. For example, the built-in yarn 132 helps to support the upper 120 around the foot, limits deformation in areas of the upper 120 (for example, transmits stretch resistance) and operates in conjunction with the lace 154 to improve the fit of article 100 US Patent Application Publication 2012/0233882 to Huffa, et al., Which has been referred to above and incorporated herein, presents the discussion on the way in which the 130 mesh component can be formed, which includes the process of embedding or otherwise locate the embedded wire 132 within mesh element 131.
[052] In some embodiments, the embedded yarn 132 may extend through the mesh element 131 in an upward direction from a sole structure 10 to the instep area 150. In an example embodiment, the yarn embed-132 can extend between each inner opening of the shoelace 153 and each outer opening of the shoelace 152 and extend backwards in a downward direction from the instep area 150 towards the sole structure 110. For example , the embedded wire 132 can form a loop around the outer opening of the lace 152, while the inner opening of the lace 153 is located outside the loop. With this configuration, the embedded wire 132 can reinforce the external opening of the shoelace 152.
[053] In addition, when article 100 is supplied with lace 154, the em-butido thread 132 that extends around the outer opening of lace 152 can assist with providing support and / or stability to a user's foot . In some embodiments, the built-in yarn 132 can be stretched when the lace 154 is tightened, and the built-in yarn 132 resists stretching in the upper 120. In addition, the built-in yarn 132 helps to support the upper 120 around the foot and operates in together with shoelace 154 to improve the fit of article 100. For example, in modalities where shoelace 154 passes to the mesh component 130 through the inner opening of the shoelace 153 and exits the mesh component 130 through the outer opening of the shoelace 152, the lace 154 is arranged through the loop formed by the embedded thread 132 and allows the adjustment of the upper 120 by pulling the lace 154 tight. In one embodiment, the embedded wire 132 may extend around the outer opening of the lace 152, while remaining within the mesh element 131. That is, the embedded wire 132 may extend through the mesh component 130 within one or more strokes and / or chains of the mesh element 131. In other embodiments, however, the embedded thread 132 may come out of the mesh element 131 in one or more parts, so as to be exposed on the outer surface 121 and / or the inner surface 122.
[054] In an example embodiment, the instep area 150 extending between the medial side 18 and the lateral face 18 can be formed of unitary mesh construction with the upper 120 and the anklet 160. As shown in figure 4, the mesh component part 130 that forms the instep area 150 can be substantially continuous with the remainder of the mesh component that forms the upper 120 and the anklet 180. In this embodiment, the chest area of the foot 150 is joined by stitching the upper 120 along each of the lateral face and a medial side of the instep area 150, such that the instep area 150 and the upper 120 include at least one common course and / or include courses that are substantially continuous. In addition, the instep area 150 is joined by stitching the anklet 160 to the front of the vent opening 140, such that the instep area 150 and the anklet 160 include at least one course in common and / or include courses that are substantially continuous.
[055] Now, with reference to figure 5, an example modality of component in mesh 130 is shown in a flat or smooth configuration. In this modality, the mesh component 130 has a shaped configuration, generally in Y, which is outlined by an external perimeter, in this modality, the external perimeter includes a front perimeter edge 510, a side perimeter edge 500, and a edge of the medial perimeter 502 disposed opposite the edge of the lateral perimeter 500. The outer perimeter edge of the mesh component 130 also includes a pair of heel edges, which includes a lateral edge of the heel 504 and a medial edge of the heel 508 In an example embodiment, the mesh component 130 may further include an internal perimeter that will be associated with and define the vent opening 140, described above. In this embodiment, the inner perimeter of the knitted component 130 includes the edge of the inner perimeter 508. When incorporated into a shoe item, which includes the shoe 100, the front perimeter edge 510, the side perimeter edge 500, the edge of the medial perimeter 502 and at least a lateral part, a heel edge 504 and a medial heel edge 508 are against a top surface of the sole structure 110 and can be associated with a support sock or insole. In addition, the edge of the lateral heel 504 and the edge of the medial heel 508 are joined together and extend vertically in the heel region 14 of article 100. In some embodiments of a shoe article, a material element can cover a seam between the lateral edge of the heel 504 and the edge of the medial heel 508 to reinforce the seam and increase the aesthetic appeal of the shoe.
[056] The mesh component 130 may include the instep area 150 which is formed of unitary mesh construction with the remainder of the upper 120 and the anklet 180, as described above. In some embodiments, the instep area 150 includes a plurality of lace openings 152, 153 arranged in the mesh component 130. As described above, the lace openings 152, 153 can extend through the mesh component 130 and are configured to receive a shoelace, which includes the shoelace 154. In an example embodiment, the openings 152, 153 are formed directly on the knitted component 130 by sewing, in other modalities, however, the shoelace openings 152, 153 may include the additional reinforcement elements added to the mesh component 130. In some embodiments, the instep area 150 may additionally include the tied shoelace receiving opening 162. As described above, the tied shoelace receiving opening 182 can be arranged over a part of the instep area 150 and / or anklet 180 close to or adjacent to the border region 200. In an example embodiment, the tied shoelace reception opening 162 it can be formed in a similar way as the shoelace openings 152, 153. In one embodiment, the tied shoelace receiving opening 162 can be formed directed towards the knitted component 130 by means of buttonhole seam or other suitable type sewing point. In other embodiments, the tied shoelace receiving opening 162 is optional and can be omitted.
[057] As shown in figure 5, each of the side face 16 and the medial side 18 can be associated with a single embedded thread 132 that alternately passes through the mesh element 131 and extends outside the mesh element 131 in parts of the mesh component 130. In this embodiment, the embedded wire 132 exits the mesh element 131 in various parts of the mesh component 130 along each perimeter of the side edge 500 and perimeter of the medial edge 502 before extending backwards in mesh element 131. With this arrangement, a single embedded thread 132 can be used for each side face 16 and the medial side 18 of the upper 120. In other embodiments, however, the additional embedded threads can be supplied in various parts of 130 mesh component.
[058] In several modalities, a mesh component can incorporate several types of yarn that give different properties to separate areas of the upper. For example, an area of the knitted component 130 can be formed from a first type of yarn that transmits a first set of properties, and another area of the first knitted component 130 can be formed from a second type of yarn that transmits a first set of properties. transmits a second set of properties, in this configuration, the properties can vary along the upper 120 choosing specific yarns for different areas of the mesh component 130.
[059] The properties that a given type of yarn will transmit to an area of a knitted component partly depend on the materials that form the various filaments and fibers within the yarn. Cotton, for example, provides softness, natural aesthetics and biodegradability. The elastane and the polyester stretch each provide substantial stretch and recovery, with the polyester stretch also providing the ability to be recyled. Rayon fabric provides high gloss and moisture absorption. Wool also provides high moisture absorption, in addition to insulating properties and biodegradability. Nylon is a durable and abrasion-resistant material with relatively high strength. Polyester is a hydrophobic material that also provides relatively high durability.
[060] In addition to materials, other aspects of the yarns selected for a knitted component can affect the properties of the upper. For example, a yarn that forms a knitted component 130 may be a monofilament yarn or a multifilament yarn. The yarn may also include separate filaments that are each made up of different materials. In addition, the yarn may include filaments that are each made up of two or more different materials, such as a bicomponent yarn, with filaments that have a sheathed core configuration or two halves formed by different materials. Different degrees of twist and crimp, as well as different deniers, can also affect the properties of the upper 120. Therefore, both the materials that form the yarn and other aspects of the yarn can be selected to convey a variety of properties to separate the yarns. areas of the upper 120.
[061] In some embodiments, the integral mesh anklet 160 may extend from the instep area 150 of the mesh component 130 to the rear of the inner perimeter edge 508 and may also extend between the lateral edge of the heel 504 and the edge of the medial heel 506. In an example embodiment, the anklet 160 is formed of unitary mesh construction with the upper 120 at the back of the instep area 150 of the 130 mesh component, as well as in each from the lateral face 16 and the medial side 18 of the upper 120 along the border region 200. That is, the ankle bracelet 160 is joined by means of stitching to the upper 120 at the back of the instep area 150, in such a way so that the area of the anklet 160 and the instep 150 of the upper 120 includes at least one course in common and / or includes fields that are substantially continuous between the ankle sleeve 160 and the upper 120. Likewise, the ankle sleeve 160 is joined by sewing, approximately and, along the border region 200 that extends around the upper 120, including along each side of the upper 120 on the lateral edge of the heel 504 and on the medial edge of the heel 506. It should be noted that, although a line dashed line is used to separate and define where the anklet 160 begins in the mesh component 130, the dashed line may, by reference, not be visible in some configurations of the mesh component 130.
[062] In some embodiments, the anklet 180 forms a circular or tubular structure in the upper 120 that corresponds to the vent opening 140 of article 100. When article 100 is used, ankle bracelet 180 extends around or surrounds the user's ankle and can fix against the ankle. In some embodiments, the anklet 180 may have a greater elongation capacity than the remainder of the upper 120. An advantage of providing a relatively small stretch resistance (i.e., allowing stretching) to the anklet 160 is that that area of the component mesh 130 will stretch or otherwise stretch as the foot is inserted into the upper 120 and removed from the upper 120 through the vent opening 140 formed by the anklet 160. In addition, the anklet 160 can remain in a partially stretched condition and stand against the ankle when article 100 is used, thereby preventing dirt, debris and other debris from entering article 100 through vent opening 140.
[063] In an example embodiment, the anklet 160 may include the malleolar zone 164 arranged on each of the lateral face 18 and the medial side 18. As described in more detail with reference to figures 10 to 17, the malleolar zone 164 provides a mesh structure on the anklet 160 that allows greater elasticity and comfort for a user of article 100. In addition, the malleolar zone 184 can help with maintaining an orientation of the upper 120 on a user's foot when covering and adjusting well to the user's malleolar bones.
[064] Now, with reference to figures 8 to 9, an example modality of tied shoelace reception opening 162 is illustrated in the anklet 180. In some embodiments, the tied shoelace reception opening 162 can be located in the chest area of the foot 150 or the anklet 180. The location of the shoelace receiving opening 182 can be chosen to match the location of the highest set of shoelace openings 152, 153 or slightly above the highest set of shoelace openings 152, 153. In this embodiment, the tallest set of shoelace openings 152, 153 is arranged on each side face 16 and medial side 18 closest to an upper end 602 of vent opening 140. With this configuration, since shoelace 154 extends through the highest set of shoelace openings 152, 153, the tied and tied shoelace can be threaded through an orifice 800 defined by the tied shoelace receiving opening 182. As shown in 8, orifice 800 extends through the upper 120 of the outer surface 121 to the inner surface 122.
[065] Figures 7 to 9 illustrate an example process of using the tied shoelace reception opening 182 to fold the loose ends of a strap tied and tied in the hole 800 so that the loose ends of the strap tied and tied are arranged inside the upper 120. As shown in figure 7, the article 100 can optionally be fixed to a desired amount of tightness around a foot inside the upper 120 by means of the lace 154 disposed through the lace openings 152, 153. Since lace 154 has the desired amount of tightness, lace 154 can then be tied and tied in a 700 curve. It should be understood that curve 700 is illustrated for purposes of example, however, in other embodiments, different mechanisms can be used to firmly support the shoelace 154 in a tight configuration.
[066] Then, as shown in figure 8, the loose arc ends 700, which include the shoelace loops and the rear ends of the loop, can begin to be eliminated through the orifice 800 formed by the tied shoelace reception opening 162 In an example embodiment, the mesh component part that forms the anklet 180 and / or the instep area 150 around the tied shoelace reception opening 162 can stretch to assist in positioning the loose ends of bow 700 in hole 800. Finally, as shown in figure 9, the loose ends of bow 700 have been fully inserted through hole 600 of the tied shoelace reception opening 162 so that the loose ends of bow 700 of shoelace 154 are arranged in the inside of the upper 120 against the internal surface 122 of the mesh component 130. In this embodiment, the arc knot 700 remains outside the orifice 800 on the external surface 121. However, in other ways odalities, the tied shoelace receiving opening 162 can be configured to accommodate the entire arch 700, which includes the loose ends and the knot.
[067] When placing the loose ends of the bow 700 into the hole 600 of the tied shoelace reception opening 182, the ends to the right of the shoelace 154 and the loops of the bow shoelace 700 are moved inside the upper 120 so that the surface external 121 remains relatively uniform. This configuration helps to reduce the likelihood that the rear ends of the shoelace 154 and / or loops of the bow shoelace 700 may interfere with the article 100 when in use. For example, in embodiments where article 100 is a soccer shoe, the tied shoelace receiving opening 182 can be used to provide a generally uniform outer surface 121 for kicking a soccer ball. With this configuration, the loose ends of the bow 700, which include the bow tie loops 700 and / or the ends to the right of the lace 154, are protected inside the upper 120 and can be prevented from getting around and interfering with contact with the soccer ball.
[068] Now, with reference to figures 10 to 17, an example modality of the integral mesh anklet 180 is illustrated, in some modalities, the anklet 160 may include features that are configured to correspond with the lateral and medial malleolar bones of a user, in one modality, the ankle strap 180 includes the malleolar zone 184 arranged on each of the lateral face 18 and the medial side 18 of the upper 120. An example of a mesh structure that forms the maleoar zone 184 will be described below.
[069] In an example embodiment, the mesh element 131 includes at least two layers of mesh interlocked together in one or more parts to form the 130 mesh component. In this embodiment, a first layer of mesh 1000 forms the largest part of a first side of the mesh component 130. In some embodiments, the first layer of mesh 1000 can be associated with a greater part of the outer surface 121. A second layer of mesh 1010 forms the greater part of a second side of the component in mesh 130, disposed on the opposite side to the first side, in some embodiments, the second mesh layer 1010 can be associated with most of the inner surface 122.
[070] As shown in figure 10, in this embodiment, the malleolar zone 164 may include a plurality of recesses 1020 on the outer surface 121 of the anklet 160. The plurality of recesses 1020 are openings or openings in the first layer of mesh 1000 that allow a second layer 1010 is exposed to the outside of the mesh component 130. That is, in that embodiment, the outer surface 121 includes a first layer of mesh 1000 and a part of the second layer of mesh 1010 which is arranged within the bottom of the plurality of 1020 recesses.
[071] Now, with reference to figure 11, a cross-sectional view of the maleolar zone 184 is illustrated to show the mesh structure, which includes the first layer of mesh 1000 and the second layer of mesh 1010. In this embodiment, each recess of a plurality of recesses 1020 has a depth that is approximately equal to the thickness of the first layer of 1000. By stitching a mesh element 131 in such a way that the first layer 1000 includes the openings or openings positioned selectively, and the second layer 1010 can be exposed to form a plurality of recesses 1020.
[072] In some configurations, the malleolar zone 164 is formed by sewing the anklet 180 of the mesh component 130 with a mesh structure that forms the plurality of recesses 1020 during the sewing process. A mesh structure suitable for forming the malleolar zone 184 includes a 1x1 stitch mesh structure or 2x2 stitch mesh structure, in contrast to a stitch mesh structure, which can be used to form the openings that extend completely through the mesh 131, which includes both the first layer 1000 mesh and the second layer 1010 mesh, a stitching mesh structure with recesses in the first layer 1000 mesh, as shown in figure 11. In addition to improving the aesthetics of article 100, a seam mesh structure can increase flexibility and decrease the total mass of the 130 mesh component. Compared to a 1x1 sewing mesh structure, a 2x2 sewing mesh structure forms larger recesses in the first 1000 mesh layer. Depending on the desired size of the plurality of recesses 1020 associated with the maleolar zone 184, a 1x1 seam mesh structure or a structure can be used 2x2 seam mesh fabric, in other embodiments, the larger seam mesh structures can be similarly formed. In addition, in other embodiments, a combination of 1x1 stitch mesh structure, 2x2 stitch mesh structure, or larger stitch mesh structure can be used together to form the malleolar zone 184.
[073] The suitable sewing mesh structures with the diagrams for sewing such mesh structures for use in the present embodiments are described in US Patent Application Publication 2012/0233882 by Huffa et al., Which was referred to above and incorporated herein.
[074] In an example embodiment, the malleolar zones 184 arranged on the side face 16 and of medium size 18 provide additional stretching to the ankle bracelet 180. As shown in figures 12 and 13, the ankle bracelet 180 is shown undergoing elongation with the zone maleolar 184. Figure 12 illustrates an unstretched condition of anklet 160. In this embodiment, the maleolar zone 184 includes a plurality of recesses 1020, which includes a first recess 1200 and a second recess 1202, the first recess 1200 and the second recess 1202 are arranged at opposite ends of the malleolar zone 184, with the first recess 1200 arranged backwards in the ankle band 180 in a direction towards the heel region 14 and with the second recess 1202 disposed forward in the ankle band 180, in a direction towards the previous region 10.
[075] In one embodiment, the first recess 1200 and the second recess 1202 can be separated by a first length L1 in the anklet 180. In this embodiment, the first length L1 represents the widest part of the malleolar zone 164. In other embodiments, however , the malleolar zone 164 may have a different shape associated with a greater or lesser length. In addition, in this embodiment, the malleolar zone 184 is associated with a plurality of recesses 1020 arranged in an approximately hexagonal configuration. However, in other embodiments, the arrangement of a plurality of recesses 1020 associated with the malleolar zone 164, which includes the number and / or location of the recesses, may vary. For example, in other embodiments, the arrangement of a plurality of recesses 1020 can be associated with any geometric or non-geometric shape, which includes circular, oval, square, triangular, rectangular, and other desired arrangements. In an example embodiment, the arrangement of a plurality of recesses 1020 associated with the malleolar zone 164 can be chosen to approximately conform to the shape of a user's ankle.
[076] Now, with reference to figure 13, the anklet 180 is illustrated, subject to stretching. In one embodiment, when the anklet 180 is in a stretched condition, for example, as can occur when a foot is inserted into the upper 120 through vent opening 140, the malleolar zone 164 is configured to assist with the provision of stretch to the anklet 180. In this modality, the first recess 1200 and the second recess 1202 can be separated by a second length L2 in the anklet 180. In this modality, the second length L2 represents a stretched condition of the malleolar zone 164. The second length L2 can be longer than the first L1 length. In some cases, the second length L2 may be significantly longer than the first length L1. For example, depending on the type of mesh structure used to form the malleolar zone 184 and the choice of yarn type, the malleolar zone 164 can be subjected to a significant amount of stretching compared to the remaining part of the anklet 160m in such a way whereas the second length L2 can be 50% less than the first length L1, in other embodiments, the second length L2 can be between 25% and 50% greater than the first length L1. In still other embodiments, the second length L2 can be more than 50% greater than the first length L1.
[077] Figures 14 to 16 illustrate an example of the process of inserting a foot of a user 1400 into the upper 100 of article 100 provided with the anklet 160 that includes the malleolar zones 164. As shown in figure 14, article 100 it is configured to receive a user's foot 1400 within the interior gap of the upper 120 of the vent opening 140 defined by the anklet 160. The foot 1400 includes the ankle bone 1402, also known as the lateral malleolus, shown on the side 16. Also Likewise, the foot 1400 also includes a medial malleolus 1404 (shown in figure 17) disposed in front of the lateral malleolus.
[078] Now, with reference to figure 15, the foot 1400 is shown in the process of being inserted through the vent opening 140. As described above, the anklet 160 that includes the malleolar zone 164 can help with the stretching of the anklet 160 during the foot insertion 1400 into the article 100. In addition, as can be seen in figure 15, the instep area 150 can also be configured to stretch, as will be further described below, to accommodate the foot entry 1400 into the upper 120. Figure 16 illustrates that once the foot 1400 has been inserted into the upper 120 of article 100. In this embodiment, the malleolar zone 164 corresponds approximately to the location of the ankle bone 1402 on the foot 1400. Likewise, the malleolar zone 164 arranged on the medial side 18 of the anklet 160 can also correspond to the location of the medial malleolus 1404 of the foot 1400. By providing the anklet 160 with additional stretching features, the anklet 160 can closely match and encircle foot 1400 above ankle bone 1402. With this configuration, the upper 120 can firmly and securely adjust a user's foot 1400.
[079] In addition, as shown in figure 16, the upper 120 provides greater additional comfort to the foot of a 1400 user, accommodating and allowing the anklet 160 to stretch in the maleolar zone 164. In this modality, the protruding part of the ankle bone 1402 can project to the outside of the anklet 180 in the malleolar zone 184, with this configuration, due to the fact that the malleolar zone 184 can have a reduced stretching resistance than the remainder of the anklet 180, the malleolar zone 184 reduces pressure on ankle bone 1402 and allows ankle bracelet 180 to comfortably encircle a user's foot 1400.
[080] In addition, the malleolar zone 184 can also assist in maintaining an orientation of the upper 120 on a user's foot through the cover and firmly fitting the user's lateral and medial malleolar bones. As shown in figure 17, a front view of article 100 is illustrated with foot 1400 arranged inside, in this embodiment, the lateral malleolus 1402 and the medial malleolus 1404 are covered by maleolar zones 184 of the anklet 180. By allowing each the lateral malleolus 1402 and the medial malleolus 1404 to project into the malleolar zone 184, the anklet 180 can assist in maintaining the desired orientation of the upper 120.
[081] In this embodiment, a vertical axis 1700 and a lateral axis 1702 are shown crossing at an approximate midpoint 1704. Midpoint 1704 can be located a first distance D1 from an end of the lateral malleolus 1710 associated with the lateral malleolus 1402 of the foot 1400 extends outward through the malleolar zone 184 on the side face 16 of the anklet 160. Likewise, the central point 1704 can be located at a second distance D2 from one end of the medial malleolus 1712 associated with the medial malleolus 1404 of the foot 1400 extends out through the malleolar zone 184 on the side face 18 of the anklet 160. In this embodiment, the first distance D1 and the second distance D2 are approximately equal so that the central point 1704 is approximately equidistant from each end of the lateral malleolus 1710 and of the end of the 1712 medial malleolus.
[082] Since the part of the anklet 180 associated with each core zone 184 has a lesser or reduced amount of resistance to stretching than the rest of the anklet 180, the lateral malleolus 1402 and the medial malleolus 1404 of the foot 1400 will tend to remain in the corresponding malleolus zone 184. With this arrangement, the central point 1704 can remain substantially oriented at the same location on the upper 120, the upper 120 can maintain substantially a desired orientation on a user's foot. For example, in modalities where article 100 is a soccer shoe, the malleolar zone 164 can assist in maintaining the orientation of the upper 120, such that an external, generally smooth surface 121 is provided to kick a soccer ball .
[083] In various modalities, the malleolar zone 184 which has a plurality of recesses 1020 can provide additional aesthetic characteristics to the anklet 160, for example, by selecting yarns that have different colors for each of the first layer of the mesh 1000 and the second layer 1010 mesh, a contrasting or coordinating visual effect can be provided on the anklet 160. For example, the team colors or the choice of colored yarns selected by the user that forms each of the first 1000 mesh layer and the second mesh layer 1010 can be selected so that the color of the second layer of mesh 1010 is visible in the plurality of recesses 1020 of maleolar zone 164.
[084] In some embodiments, the mesh component 130 may include additional features over the upper 120 that provide comfort and / or cushioning for a user's foot. In an illustrative embodiment, the mesh component 130 may include a cushioning area arranged in the instep area 150 that is configured to assist with the entry of a foot into the upper 120 and provides cushioning once the foot has been inserted . Figures 13 to 20 illustrate an example embodiment of a cushioning zone 1800 arranged across the instep area 150 of the upper 120. As shown in figure 18, the cushioning area extends between the side face 16 and the medial side 18 of the upper 120 from a medial edge 1802 to a lateral edge 1804 adjacent to the shoelace openings 152, 153, approximately in the middle of the upper 120. In this embodiment, the cushioning area 1800 can have an oval shape or approximately elongated diamond, which includes a top edge 1806 arranged in one direction towards the vent opening 140 and a bottom end arranged 1808 at the top edge 1806 opposite in a direction away from the vent opening 140 towards the anterior region 10. It should it should be noted that although a dashed line is used to separate and define buffer zone 1800 in the mesh component 130, the dashed line may be for reference only and may not correspond to any lin visual of the 130 mesh component.
[085] In an example embodiment, the 1800 buffer zone can be formed by stitching using a mesh structure that provides cushioning in an unstretched condition and provides flexibility in a stretched situation. In one embodiment, the cushioning zone 1800 may include an 1810 mesh stretch structure that is formed of unitary mesh construction with the remainder of the upper 120, which includes the instep area 150 and the ankle strap 180. In an example embodiment, the buffer zone 1800 can be surrounded by the remainder of the upper 120 which has a different mesh structure than the 1810 stretch mesh structure. The 1810 stretch mesh structure can be a mesh structure that has a reduced amount or less elongation resistance than the remainder of the upper 120. For example, the buffer zone 1800 may have the stretch mesh structure 1810 shown by circuit diagram 2000 in figure 20, described below. In one embodiment, the parts of the upper 120 surrounding the buffer zone 1800 may include a jersey mesh structure or a double jersey mesh structure. For example, the stretch mesh structure 1810 can be used for the buffer zone 1800, such that the buffer zone 1800 can stretch in a lateral direction from the medial edge 1802 and the lateral edge 1804, while remaining relatively resistant to stretching along a longitudinal direction between the upper edge 1808 and the lower edge 1808.
[086] In addition, in some embodiments, the stretching properties of the 1800 buffer zone can be further improved or increased by using an elastic thread to form the 1810 mesh stretch structure. With this configuration, the combination of reduced stretch resistance provided by the 1810 structure mesh section and the reduced tension resistance provided by an elastic yarn can provide an increased or greater amount or degree of stretch to stretch 1800 fill area. For example, such an increase or a greater amount of stretch can help a user with the insertion of a foot in the upper 120.
[087] Figure 18 illustrates the 1800 buffer zone in an unstretched condition. In this configuration, the buffer zone 1800 can have a first width W1 through the upper 120 between the medial edge 1802 and the lateral edge 1804. In addition, in the non-stretched condition, the buffer zone 1800 can have a first thickness T1 in the area of the mesh component 130 between the outer surface 121 and the inner surface 122, in an example embodiment, the first thickness T1 can be provided to assist, with cushioning and / or padding of the instep of a foot of a user of the article 100, for example, in embodiments where article 100 is a soccer shoe, the first thickness T1 of the cushioning zone 1800 can assist with cushioning or padding a user's foot during contact with a soccer ball.
[088] Now, with reference to figure 19, the 1800 buffer zone is illustrated in a stretched condition. In this modality, the upper 120 can be stretched in the transverse direction between the lateral side 18 and the medial side 18, for example, during the entry of a foot into the upper 120. In the stretched condition, the buffer zone 1800 is configured to stretch along the transverse direction between the medial edge 1802 and the lateral edge 1804. In an example embodiment, the stretch mesh structure 1810 is configured in such a way that the cushion zone 1800 can flatten and be stretched in the lateral direction to provide flexibility for inserting a foot into the upper 120. As shown in figure 19, during the stretched condition, the cushion zone 1800 can have a second width W2 through the upper 120 between the medial edge 1802 and the side edge 1804. In one embodiment, the second width W2 can be greater than the first width W1. For example, in some cases, the second width VV2 can be at least 25% larger than the first width W1. In other cases, the second width W2 can be 25% to 50% larger than the first width VV1. In still other cases, the second width W2 can be more than 50% larger than the first width W1.
[089] In addition, in the stretched condition, the buffer zone 1800 can have a second thickness T2 in the zone of the mesh component 130 between the outer surface 121 and the inner surface 122. In an example embodiment, the second thickness T2 can be less than the first thickness T1. Once the stretched condition is terminated and the buffer zone 1800 returns to the non-stretched condition, the buffer zone 1800 will again have the first thickness T1 in the mesh component area 130. With this configuration, the buffer zone 1800 can help with the insertion of a user's foot in the upper 120, providing cushioning and / or padding for the instep once it has been inserted.
[090] Now, with reference to figure 20, an example embodiment of a 2000 loop diagram for the 1810 stretch mesh structure is illustrated. In this embodiment, the loop diagram 2000 illustrates the sequence of stitches and movements performed by a sewing machine, for example, a flat sewing machine, in order to form the 1810 stretch mesh structure becoming a part of the stitching zone. cushioning 1800. As shown in figure 20, the points spaced from each other represent the needles of a sewing machine and the illustrated steps represent the direction of movement of a thread or filament between the needles of each from a position or front position of a Sewing machine. In a first stage 2002, the threads or filaments pass in an alternating way between each position or front position, with stitches made in the mesh position or points in the forward position.
[091] Then, in a second stage 2004, the thread or filament passes alternately between the front position or position with stitches made in the front position of needles arranged between the needles with points made in the first stage 2002. Similarly, in the second stage 2004, the stitches are made on the front position for needles arranged between the needles that have stitches made in the first stage 2002. In the third stage 2006, stitches are made on the front position on the same needles that are holding the thread or filament in the stitches made in the second stage 2004. Additionally, in the third stage 2006, the stitches are made in the forward position on the same needles as the needles that had the stitches made in the second stage 2004 .
[092] Finally, in a fourth stage 2008, the threads or filament are sewn on the same needles in the front position as the stitches made in the first stage 2002 and the thread or filament is sewn on the same needles as the front position like the stitches made in the first stage of 2002. With this configuration, a part of the buffer zone 1800 with 1810 stretch mesh structure can be formed.
[093] It should be understood that the part of the buffer zone 1800 which can be made with 1810 stretch mesh structure according to the loop diagram 2000 shown in figure 20 is merely an example, a buffer zone 1800 which has the desired dimensions can be formed using a substantially similar process shown in the loop diagram 2000 to sew a mesh structure that has a width associated with a selected number of stitches and a length related to a selected number of strokes.
[094] Although various embodiments of the invention have been described, the description is intended to be illustrative and not limiting and it will be apparent to those skilled in the art that many other embodiments and implementations are possible within the scope of the invention. Accordingly, the invention should not be limited, except in the light of the appended claims and their equivalents. In addition, several modifications and changes can be attached.

权利要求:
Claims (15)
[0001]
1. Footwear article (100), having an upper structure (120) that includes a mesh component (130) that is formed by a unitary mesh construction, the mesh component (130) including: a foot region ( 20) which extends through an anterior region (10), a medial region of the foot (12), and a region of the heel (14) of the shoe article (100), the region of the foot (20) which includes an area instep (150) extending between a medial side (18) and a lateral side (16) of the upper (120); a region of the ankle (30) that forms a part of the upper (120) that extends above the region of the foot (20), the region of the ankle (30) that includes an ankle strap (160) that defines a vent opening (140) for a vacuum inside the upper (120) for receiving a foot (1400); wherein the anklet (160) is formed by a unitary mesh construction with at least the instep area (150) of the foot region (20) and a part of the foot region (20) arranged on the medial side (18) ) and lateral side (16) in the heel region (14); wherein the anklet (160) further comprises at least one core area (164) arranged on at least one on the medial side (18) and on the lateral side (16) of the upper (120), at least one malleolar zone ( 164) including a plurality of recesses (1020) on an external surface (121) of the anklet (160), and FEATURED by the fact that at least one malleolar zone (164) including the plurality of recesses (1020) exhibits a resistance to stretching that is less than a resistance to stretching the remaining portion of the ankle region (30), in which an arrangement of the plurality of recesses (1020) is associated with a geometric shape.
[0002]
2. Footwear article (100), according to claim 1, CHARACTERIZED by the fact that the anklet (160) comprises at least two layers of mesh; and wherein a first layer of mesh (1000) comprises a major part of the outer surface (121) of the anklet (160) and a second layer of mesh (1010) comprises a major part of an inner surface (122) of the anklet (160) ).
[0003]
3. Footwear article (100), according to claim 2, CHARACTERIZED by the fact that the plurality of recesses (1020) is formed by openings in the first mesh layer (1000), which expose the second mesh layer (1010) ).
[0004]
4. Footwear article (100) according to claim 3, CHARACTERIZED by the fact that the spans in the first mesh layer (1000) comprise at least one of a 1x1 gauze fabric mesh structure and a mesh structure of 2x2 gauze fabric.
[0005]
5. Footwear article (100), according to claim 1, CHARACTERIZED by the fact that at least one malleolar zone (164) on the ankle brace (160) is arranged in a position that corresponds to an ankle of a foot (1400) of a user; and / or wherein the arrangement of the plurality of recesses (1020) includes at least one of a hexagonal, circular, oval, square, triangular and rectangular arrangement.
[0006]
6. Footwear article (100), according to claim 1, CHARACTERIZED by the fact that the mesh component (130) further comprises a tied shoelace receiving opening (162) formed in at least one of the chest area of the foot (150) and anklet (160), the shoelace receiving opening (162) being configured to receive a shoelace tied inside an upper of the upper (120).
[0007]
7. Footwear article (100), according to claim 1, CHARACTERIZED by the fact that the instep area (150) further comprises a cushioning zone (1800) disposed between the medial side (18) and the side lateral (16) of the upper (120) along a top part of the shoe article (100); the buffer zone (1800) being configured to stretch in a lateral direction along the shoe article (100) between an unstretched condition and a stretched condition; and wherein the buffer zone (1800) has a first thickness in the unstretched condition and a second thickness in the stretched condition, the first thickness being greater than the second thickness.
[0008]
8. Footwear article (100), according to claim 7, CHARACTERIZED by the fact that the buffer zone (1800) is formed by a first mesh structure and a remaining part of the instep area (150) being formed by a second mesh structure, the first mesh structure being different from the second mesh structure.
[0009]
9. Footwear article (100) according to claim 8, CHARACTERIZED by the fact that the second mesh structure includes at least one of a jersey mesh structure and a double jersey mesh structure.
[0010]
10. Footwear article (100), according to claim 7, CHARACTERIZED by the fact that the mesh component (130) further comprises a plurality of shoelace openings configured to receive a shoelace, the plurality of shoelace openings being arranged in a longitudinal direction along the upper (120) on each of the medial (18) and lateral (16) sides of the instep area (150).
[0011]
11. Footwear article (100) according to claim 10 CHARACTERIZED by the fact that the buffer zone (1800) extends between the plurality of shoelace openings on each of the medial side (18) and the lateral side ( 16) of the instep area (150).
[0012]
12. Footwear article (100), according to claim 7, CHARACTERIZED by the fact that the buffer zone (1800) is formed by a unitary mesh construction with the anklet (160), in such a way that the buffer zone damping (1800) includes at least one course in common with the anklet (160).
[0013]
13. Footwear article (100), according to claim 7, CHARACTERIZED by the fact that the mesh component (130) further comprises a tied shoelace receiving opening (162) formed in at least one of the chest area of the foot (150) and anklet (160), the shoelace receiving opening (162) being configured to receive a shoelace tied inside an upper of the upper (120).
[0014]
14. Footwear article (100) according to claim 6, CHARACTERIZED by the fact that the mesh component (130) comprises a mesh element (131) having two sides, which includes a first side that forms a major part substantial of an outer surface (121) of the upper (120) and a second side disposed opposite the first side, the second side forming a substantial majority of an inner surface (122) disposed within the upper (120); wherein the tied shoelace receiving opening (162) defines a hole extending through the first side and the second side of the mesh element (131); and wherein a tied shoelace is configured to lie along the inner surface (122) inside the upper (120) when placed through the hole in the tied shoelace receiving opening.
[0015]
15. Footwear article (100), according to claim 6, CHARACTERIZED by the fact that the tied shoelace receiving opening (162) comprises a seam for the button hole in the mesh component (130).

类似技术:

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同族专利:

公开号 | 公开日

CN204317632U|2015-05-13|

HK1206947A1|2016-01-22|

CN104413996A|2015-03-18|

US20150059209A1|2015-03-05|

TWI613974B|2018-02-11|

WO2015030914A1|2015-03-05|

EP3038486B1|2020-03-11|

MX2016002675A|2016-06-06|

US20150101212A1|2015-04-16|

KR101844694B1|2018-04-02|

BR112016004547A8|2020-02-11|

CN105455286A|2016-04-06|

KR20160045826A|2016-04-27|

CN104413996B|2017-04-12|

JP6361733B2|2018-07-25|

MX355079B|2018-04-04|

CN205125236U|2016-04-06|

US10918155B2|2021-02-16|

EP3038486A1|2016-07-06|

TW201524393A|2015-07-01|

AR097477A1|2016-03-16|

CN106923423A|2017-07-07|

CN105455286B|2018-02-02|

US20200315284A1|2020-10-08|

JP2016529036A|2016-09-23|

CN106923423B|2020-04-07|

HK1222999A1|2017-07-21|

US20180235307A1|2018-08-23|

US9392835B2|2016-07-19|

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法律状态:
2018-11-06| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|

2020-04-28| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|

2020-12-08| B09A| Decision: intention to grant|

2021-02-09| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 23/06/2014, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

US14/013.446|2013-08-29|

US14/013,446|US20150059209A1|2013-08-29|2013-08-29|Article Of Footwear Incorporating A Knitted Component With An Integral Knit Ankle Cuff|

PCT/US2014/043596|WO2015030914A1|2013-08-29|2014-06-23|Article of footwear incorporating a knitted component with an integral knit ankle cuff|

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