The present disclosure relates generally to knitted components and methods of manufacturing knitted components, for example, knitted components for use in footwear applications.
According to one aspect of the present disclosure, a knitted component may include a first knit layer including a first yarn, a second knit layer, and a first plurality of inlaid courses of a high tenacity yarn having a tenacity of at least six grams-force per denier. The first plurality of inlaid courses of the high tenacity yarn may include at least three courses of high tenacity yarn, each of which may be separated from an adjacent course of the first plurality of courses of the high tenacity yarn by no more than five courses of the first yarn. At least one course of the first plurality of inlaid courses of the high tenacity yarn may have a diameter of less than or equal to 0.9 mm. The first plurality of courses of the high tenacity yarn may include at least five courses of the high tenacity yarn. Each course of the first plurality of inlaid courses of the high tenacity yarn may have a linear density of at least 1,000 denier. Each course of the first plurality of courses of the high tenacity yarn may have a maximum tensile strength of at least 7,000 grams-force. The knitted component may further include a second plurality of inlaid courses of the high tenacity yarn having a tenacity of at least six grams-force per denier. At least one course of the first plurality of inlaid courses may extend from a first edge toward a second edge, and at least one course of the second plurality of inlaid courses may extend from the second edge toward a third edge. At least one course of the first plurality of inlaid courses may extend from a first edge toward a second edge, and at least one course of the second plurality of inlaid courses may extend from the second edge toward the first edge. At least one course of the first plurality of inlaid courses may extend part way to the second edge, and at least one course of the second plurality of inlaid courses may extend part way to the first edge. At least one course of the first plurality of inlaid courses may extend past the at least one course of the second plurality of inlaid courses. The at least one course of the first plurality of inlaid courses may extend from the first edge to the second edge. The first knit layer may conceal one or more of the plurality of inlaid courses. The first knit layer and the second knit layer may be at least partially formed from the first yarn. At least one course of the plurality of inlaid courses may be secured to at least one of the first and second knit layers with a tuck stitch. The high tenacity yarn and the first yarn may have at least one different visual property, for example different colors. The knitted component may further include a plurality of openings formed in the first knit layer, through which an exposed portion of the plurality of inlaid courses of the high tenacity yarn may be visible from a first viewpoint facing the first knit layer. The exposed portion may be recessed relative to a first surface of the first knit layer. The plurality of openings may form a pattern, at least a portion of which may have an orientation other than a course-wise direction.
According to another aspect of the present disclosure, a method of forming a knitted component may include knitting a first course of a first yarn on a first needle bed and a second needle bed, inlaying a first course of a high tenacity yarn having a tenacity of at least six grams-force per denier in between the first and second needle beds, inlaying a second course of the high tenacity yarn in between the first and second needle beds, and inlaying a third course of the high tenacity yarn in between the first and second needle beds. The first and second courses of the high tenacity yarn may be separated from each other by no more than five courses, and the second and third courses of the high tenacity yarn may be separated from each other by no more than five courses.
According to another aspect of the present disclosure, an article of footwear may include a knitted component defining at least part of a void and joined with a sole structure. The knitted component may include an interior knit layer, an exterior knit layer, a plurality of inlaid courses of a high tenacity yarn between the interior and exterior knit layers. The plurality of inlaid courses of high tenacity yarn may include at least three courses of the high tenacity yarn, each of which may be separated from an adjacent course of the plurality by no more than five courses. At least one course of the plurality of inlaid courses of the high tenacity yarn may have a diameter of less than or equal to 0.9 mm. The high tenacity yarn may have a tenacity of at least six grams-force per denier. The plurality of inlaid courses may be at least partially located on at least one of a lateral side and a medial side of the article. The plurality of inlaid courses may be at least partially located in a midfoot region of the article, and/or at least partially located adjacent to a throat region of the article, and/or at least partially located in a forefoot region of the article, and/or at least partially located on the lateral side and the medial side of the article, and/or at least partially located in a rearfoot region. The plurality of inlaid courses may extend from a lateral edge to a medial edge. The plurality of inlaid courses may extend substantially throughout the knitted component. The plurality of inlaid courses may be at least partially located in at least one of a heel region and a toe box region of the article, and/or at least partially located on at least one of a medial side and a lateral side of the article, and/or may extend from the heel region to the toe box region.
According to another aspect of the present disclosure, an article of footwear may include a knitted component defining at least part of a void and a sole structure joined with the knitted component. The article of footwear may include a first plurality of courses of a high tenacity yarn inlaid between an interior knit layer and an exterior knit layer. The first plurality may include at least three courses, at least two of which may be spaced apart by no more than five courses of the exterior knit layer. The article may include a second plurality of courses of the high tenacity yarn inlaid between the interior knit layer and the exterior knit layer, which may be located in a different location of the knitted component from the first plurality. At least one of the first plurality and the second plurality of courses of the high tenacity yarn may be at least partially located on at least one of a medial side and a lateral side of the article. At least one of the first plurality and the second plurality of courses of the high tenacity yarn may be at least partially located in a rearfoot region of the article. At least one of the first plurality and the second plurality of courses of the high tenacity yarn may be at least partially located in a heel region of the article. At least one of the first plurality and the second plurality of courses of the high tenacity yarn may be at least partially located in a midfoot region of the article. At least one of the first plurality and the second plurality of courses of the high tenacity yarn may be at least partially located in a forefoot region of the article. At least one of the first plurality and the second plurality of courses of the high tenacity yarn may be at least partially located in a toe box region of the article. At least one course of at least one of the first plurality and the second plurality of courses of the high tenacity yarn may be secured to the sole structure. A plurality of lace apertures may extend through at least one of the first plurality and second plurality of courses of the high tenacity yarn. The exterior knit layer may include a plurality of openings, through which an exposed portion of at least one of the first plurality and the second plurality of courses of the high tenacity yarn may be visible. The exterior knit layer may include a plurality of elongate and parallel knit structures.
Other systems, methods, features and advantages of the present disclosure will be, or will become, apparent to one with 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 within the scope of the present disclosure, and be encompassed 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-referenced numerals designate corresponding parts throughout the different views.
Referring to
Knitted component 10 may include at least a first layer 14 and a second layer 18. First layer 14 and second layer 18 may be formed on one or more needle beds of a knitting machine, e.g., a first needle bed and/or a second needle bed. When one or both of first and second layers 14, 18 are formed on more than one needle bed, or when first and second layers 14, 18 are formed on different needle beds, then resulting knitted component 10 is a multi-bed knitted component. As used in this application, first layer 14 may form a first surface 22 comprising a first plurality of knit loops, and second layer 18 may form a second surface 26 comprising a second plurality of knit loops. First layer 14 may overlap at least a portion of second layer 18, and first and second layers 14, 18 may be coterminous in one or more dimensions; however, first and second layer 14, 18 need not be coterminous. At least a portion of first layer 14 may be freely separable from second layer 18. In other words, first layer 14 and second layer 18 may have one or more portions with opposite facing surfaces, thereby making those portions of first layer 14 freely separable from second layer 18. That is, first surface 22 may generally face a first direction, and second surface 26 may generally face the opposite direction. Although first layer 14 may be freely separable from second layer 18 in certain areas, it need not be freely separable. For example, knitted component 10 may include one or more interlayer knit stitches (e.g., stitches formed during the same knitting process and extending between a first needle bed and a second needle bed). Such interlayer knit stitches may be formed by the same yarn(s) that forms the first and/or second layers 14, 18, or a different yarn. In one example, at least one course of yarn may form a portion of both first layer 14 and second layer 18, e.g., a knit structure formed on both first and second needle beds that includes the first plurality of knit loops on the first surface 22 and the second plurality of loops on the second surface 26. For example, in an interlock knit structure or similar structure that includes one or more courses having loops formed on both a first and a second needle bed, each course may form at least a part of both the first and second layers 14, 18. Alternatively, different courses of yarn may form the first and second layers 14, 18, e.g., a first course may form a single jersey first layer on a first needle bed and a second course may form a single jersey second layer on a second needle bed, where at least a portion of the single jersey first layer is separable from the single jersey second layer (as in
First and second layers 14, 18 may each include one or more materials selected to impart advantageous properties to knitted component 10. For example, first layer 14 may eventually correspond with an exterior layer of an article of footwear, such as when the article has been assembled and is configured to accommodate the foot of a wearer, and therefore may include courses of a relatively inelastic first yarn providing abrasion resistance, water resistance and/or durability. Suitable materials for first layer 14 may include polyester yarns, e.g., polyester yarns having a maximum tensile strength of at least approximately 0.5 kg-f (e.g., ranging from approximately 0.5 kg-f to approximately 3.0 kg-f) and a linear density of at least approximately 150 denier (e.g., ranging from approximately 150 to approximately 1,500 denier). First layer 14 may also be weatherized, e.g., it may be formed from yarns having water repellant and or resistant properties or it may have a durable water repellent finish.
The second layer 18 may eventually correspond with an interior layer of an article of footwear, such as when the article has been assembled and is configured to accommodate the foot of a wearer, and therefore, the second layer 18 may include one or more courses of yarn having a relatively soft hand, for example a yarn having a napped finish or otherwise provide breathability and comfort to the wearer. Additionally or alternatively, second layer 18 may include one or more elasticized yarns to give resiliency to the knitted component. The examples are non-limiting and are intended to illustrate the versatility of first and second layers 14, 18 which may be formed from the same yarn(s) or different yarns or a combination thereof to provide advantageous properties to the respective layers, and/or different portions, areas or regions of the respective layers, as necessary or desired.
Referring still to
Pluralities of courses 28-30 may each include one or more yarns including a high tenacity yarn and may be formed by inlaying one or more yarns of the high tenacity yarn in between first and second layers 14, 18 that form the knitted component 10. In particular, pluralities of courses 28-30 may be formed at least partially from inlaid courses of high tenacity yarn. In this application, a yarn may be inlaid if it is placed in front of loops of some yarns and behind others (e.g., between loops formed on a first and a second needle bed). For example, an inlaid first yarn may be placed in front of loops of a second yarn being held on a first needle bed, and behind loops of the second yarn (or a third yarn) being held on a second needle bed. As another example, an inlaid first yarn may be placed in front of a first layer 14 and behind a second layer 18; in such cases, the first layer 14 and second layer 18 may or may not be freely separable. Subsequently, one or more yarns held on the first and second needle beds may be interlooped with additional courses of yarn and/or tucked on another needle bed, thus closing or securing the inlaid yarn within the knitted component 10 and effectively integrating the inlaid yarn into the integrally-knitted structure of the knitted component 10. In this way, an inlaid yarn may have portions that are not interlooped with other yarns of the knitted component, i.e., the inlaid yarn may have portions that may appear to extend straight through at least part of the knitted component 10. This may be accomplished on a knitting machine, e.g., with a combination feeder or an inlay feeder.
Exemplary inlaid yarns are shown in
Generally, the courses of each plurality of courses of high tenacity yarn may have a spaced relationship. In one example, the plurality of inlaid courses may be closely spaced and in other examples the inlaid courses may be spaced relatively further from each other. The plurality of inlaid courses may be uniformly spaced from each other or the spacing may vary, with some inlaid courses spaced closely to adjacent inlaid courses while other inlaid courses are spaced further apart from adjacent inlaid courses.
As used in this application, two courses of high tenacity yarn may be closely spaced if separated by no more than ten courses of other yarns. In some examples, adjacent courses of inlaid high tenacity yarn may be spaced apart by no more than five, four, three, two, one, or zero courses of another yarn. For example, a first course and a second course of high tenacity yarn are closely spaced if the first course is inlaid in between loops of a first course of a second yarn, the second course of high tenacity yarn is inlaid between loops of a second course of the second yarn, and the first and second courses of the second yarn are separated by one, two, three, four, five, six, seven, eight, nine, or ten courses of the second yarn. As another example, first and second courses of high tenacity yarn are closely spaced (in fact, they are consecutive) if the first course of high tenacity yarn is inlaid in between loops of a first course of a second yarn, the second course of high tenacity yarn is inlaid between loops of a second course of the second yarn, and the first and second courses of the second yarn are adjacent (i.e., not separated by any courses).
The number of courses of high tenacity yarn may vary. For example, some embodiments may include one or more pluralities of high tenacity yarn, each having at least two, three, four, five, six, seven, eight, nine, ten, or a greater number of courses of high tenacity yarn. For example, first plurality of high tenacity courses 28 of
Suitable high tenacity yarns may include polyester and other compositions formed into yarns having a tenacity in the range of at least approximately six grams-force per denier, e.g., approximately 6-10 grams-force per denier. For example, polyester yarns having linear densities ranging from approximately 275-325 denier and a maximum tensile strength of at least 1,650 grams-force may be appropriate. To facilitate knitting, in some embodiments, each course of the high tenacity yarn may have a maximum diameter of less than or equal to approximately 1.0 mm, e.g., less than or equal to 0.9 mm, 0.8 mm, 0.7 mm, 0.6 mm, 0.5 mm, or a smaller diameter. One suitable high tenacity yarn is a 300 denier polyethylene terephthalate yarn having a maximum tensile strength of 1,800 grams-force and thus, a tenacity of 6 grams-force per denier. Each course of high tenacity yarn may utilize a single yarn or strand. Or, each course of high tenacity yarn may comprise a plurality of yarns or strands such that each course of high tenacity yarn has greater maximum tensile strength and denier, and therefore higher tenacity. Referring to
In the alternative embodiment of
The second plurality of apertures 68, as one example, forms a pattern that extends diagonally relative to first and second edges 72, 74 of knitted component 58. Each aperture of second plurality 68 has an elongate shape extending in a course-wise direction; thus, each aperture has a different orientation than the second plurality 68 as a whole. Each aperture of the second plurality of apertures 68 could have other suitable shapes, orientations, and dimensions. Advantageously, second plurality of apertures 68 may provide a visual impression that the high tenacity yarn extends in the direction(s) of the pattern (i.e., diagonally in
The knitted components described above have a wide range of useful applications, including footwear, apparel, and industrial textiles. As one non-limiting example,
For reference purposes, article 78 may be divided generally along a longitudinal direction (heel-to-toe) into three general regions: a forefoot region 98 including a forefoot edge region 102 and a toe box 104, a midfoot region 106, and a rearfoot region 110 including a heel region 112. Forefoot region 98, in particular toe box 104, may generally include portions of upper 82 that may eventually cover (when incorporated into an article of footwear) the toes and the joints connecting the metatarsals with the phalanges. Midfoot region 106 may generally include portions corresponding with an arch area of the foot, and may include a throat region 114. Rearfoot region 110, in particular heel region 112, may generally correspond with rear portions of the foot, including areas that cover the calcaneus bone (which comprises a portion of a wearer's heel). Additionally, in some embodiments, rearfoot region 110 may cover some or all of the wearer's malleoli and talus (which comprise a portion of the ankle). Rearfoot region 110 may coincide with a collar region 118. Upper 82 may also include a medial side 122 having a medial edge region 126 (including a medial edge 130), and a lateral side having a lateral edge region (including a lateral edge). Each of the medial side 122 and lateral sides may extend through each of forefoot region 98, midfoot region 106, and rearfoot region 110, and may correspond with opposite sides. More particularly, lateral side may correspond with an outside area of the foot (i.e., the surface that faces away from the other foot), and medial side 126 may correspond with an inside area of the foot (i.e., the surface that faces toward the other foot). Forefoot region 98, midfoot region 106, rearfoot region 110, medial side 122, and lateral side are not intended to demarcate precise areas of upper 82 or knitted component 86, but rather are intended to represent general areas to aid in the following discussion.
In
Referring still to
In
Second high tenacity zone 236 includes a second plurality of apertures 244 formed in exterior layer 200 and located in forefoot region 226 that together form an “X” or diamond pattern and coincide with second plurality 224 of courses of high tenacity yarn. The apertures are shown as oblong or oval, but may have a variety of shapes, orientations, and dimensions as desired in other embodiments. Because each aperture of the second plurality 244 of apertures exposes a portion of at least one course of second plurality 224 of courses of high tenacity yarn, knitted component 196 may provide a visual impression that the second plurality 224 of courses of high tenacity yarn extends in diagonal directions forming an “X” or diamond pattern, when in fact each course of high tenacity yarn of the second plurality 224 extends in a medial-lateral direction. In other embodiments, different aperture arrangements in the exterior layer and different visual properties of the exterior layer and of the portion of high tenacity yarn that is exposed through one or more of the apertures may produce a wide range of different patterns and visual effects.
In a first step 272, the machine forms a course 276 of first yarn 260 on both the first and second needle beds 252, 256 (forming part of the first and second layers), and executes transfers 280 to form apertures in the first layer. To prepare for the transfers 280, course 276 does not knit any loops on needles of second needle bed 256 that correspond with locations where apertures will later be formed in the first layer. Subsequent to course 276, transfers 280 move knit loops formed on first needle bed 252 in course 276 to second needle bed 256.
In a second step 284, a course 288 of high tenacity yarn 268 is inlaid between loops previously formed on first and second needle beds 252, 256 during course 276. As discussed above, course 288 may include one or more ends of high tenacity yarn 268. Following second step 284, first step 272 and second step 284 may be repeated as desired to make the knitted component larger by adding more courses to the first and second layers and by inlaying additional courses of high tenacity yarn 268.
In a third step 292, the knitting machine knits three courses 296, 300, 304 of second yarn 264 on first and second needle beds 252, 256, thereby making the knitted component larger. At course 296, the machine forms tucks of second yarn 264 on first needle bed 252 at locations corresponding to the front-to-rear transfers executed at first step 272, thereby securing inlaid course 288 of high tenacity yarn formed during second step 284 within the knitted component.
Following third step 292, first through third steps 272-292 may be repeated as necessary to make the knitted component larger and to inlay additional courses of high tenacity yarn 268. The location of transfers and tucks may be altered to adjust the location of apertures formed in the first layer; alternatively, the transfers and tucks may be eliminated if no apertures are desired, although the tucks may advantageously secure the inlaid courses of high tenacity yarn. Regardless, the resulting knitted component would include first and second layers and a plurality of inlaid courses of high tenacity yarn 268. The courses of high tenacity yarn 268 in
Knitted components constructed as described above may impart numerous advantages to uppers, articles of footwear, apparel, industrial textiles, and other applications. In particular, one or more pluralities of courses of high tenacity yarn may reinforce and increase the strength of the knitted component, especially in directions parallel to and approximately parallel to the courses of high tenacity yarn. This may be useful in articles of footwear, where selective placement of such knitted components may improve directional stability. Additionally, the courses of high tenacity yarn may increase stretch resistance in directions parallel to and approximately parallel to the courses of high tenacity yarn, e.g., for the benefit of improving lock-out of a wearer's foot in an article of footwear. Additionally, when a first layer includes one or more apertures, thereby exposing a portion of the high tenacity yarn, the knitted component may have appealing visual properties; for example, a plurality of apertures in the first layer may form a pattern that conveys the appearance that courses of high tenacity yarn extend in a first direction, even though they in fact extend in a second direction.
While various embodiments of the present disclosure have been described, the present disclosure is not to be restricted except in light of the attached claims and their equivalents. Moreover, the advantages described herein are not necessarily the only advantages of the present disclosure and it is not necessarily expected that every embodiment of the present disclosure will achieve all of the advantages described.
This application, having attorney docket number 384740/170356US03CON and titled “Knitted Components Reinforced with High Tenacity Yarn,” is a continuation application of U.S. application Ser. No. 16/909,416, filed Jun. 23, 2020, and titled “Knitted Components Reinforced with High Tenacity Yarn,” which is a continuation of U.S. application Ser. No. 15/876,116, filed on Jan. 20, 2018, and titled “Knitted Components Reinforced with High Tenacity Yarn,” which issued as U.S. Pat. No. 10,731,279, on Aug. 4, 2020. The entireties of the aforementioned applications are incorporated by reference herein.
Number | Date | Country | |
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Parent | 16909416 | Jun 2020 | US |
Child | 17715467 | US | |
Parent | 15876116 | Jan 2018 | US |
Child | 16909416 | US |