Abstract
An upper for a shoe includes a first tubular textile layer and a second tubular textile layer. The first tubular textile layer is at least partially surrounded by the second tubular textile layer thus forming an internal textile layer and an external textile layer. The first tubular textile layer includes a first zone. The first zone includes a first yam and the first tubular textile layer includes a second yarn. The first yarn is more resilient than the second yarn, and the first zone includes a polygonal shape.
Claims
1. An upper for a shoe, comprising a first tubular textile layer and a second tubular textile layer, wherein the first tubular textile layer is at least partially surrounded by the second tubular textile layer thus forming an internal textile layer and an external textile layer; wherein the first tubular textile layer comprises a first zone, the first zone comprises a first yarn; and wherein the first tubular textile layer comprises a second yarn, wherein the first yarn is more resilient than the second yarn; and wherein the first zone comprises a polygonal shape.
2. The upper of claim 1, wherein the first yarn comprises an elastic yarn.
3. The upper of claim 1, wherein at least a part of the first tubular textile layer or the second tubular textile layer is knitted.
4. The upper of claim 1, wherein the polygonal shape of the first zone comprises less than 20 corners.
5. The upper of claim 1, wherein the first tubular textile layer and the second tubular textile layer are manufactured as a one-piece element.
6. The upper of claim 5, wherein the first tubular textile layer is folded into the second tubular textile layer or the second tubular textile layer is at least partially folded over the first tubular textile layer.
7. The upper of claim 1, wherein the first zone is at least located at an instep area, a heel area, a collar area, or a throat area of the first tubular textile layer of the upper.
8. The upper of claim 1, wherein the first zone forms at least a part of a collar region of the first tubular textile layer of the upper.
9. The upper of claim 1, wherein the first zone is at least connected to a collar region of the first tubular textile layer of the upper.
10. A shoe comprising an upper according to claim 1.
11. A method of manufacturing an upper for a shoe, the method comprising: manufacturing a first tubular textile layer comprising a first zone, wherein the first zone comprises a polygonal shape; and manufacturing a second tubular textile layer; and surrounding at least partially the first tubular textile layer with the second tubular textile layer; wherein the first zone comprises a first yarn and the first tubular textile layer comprises a second yarn, wherein the first yam is more resilient than the second yam.
12. The method of claim 11, wherein the first yarn comprises an elastic yam.
13. The method of claim 11, wherein manufacturing the first tubular textile layer and manufacturing the second tubular textile layer further comprises knitting at least a part of the first tubular textile layer or the second tubular textile layer.
14. The method of claim 11, wherein manufacturing the first tubular textile layer and manufacturing the second tubular textile layer further comprises knitting at least 40% of the first tubular textile layer or the second tubular textile layer.
15. The method of claim 11, wherein manufacturing the first tubular textile layer comprising the first zone further comprises, incorporating the first zone into the first tubular textile layer by an intarsia knitting technique.
16. The method of claim 11, further comprising manufacturing the first tubular textile layer and the second tubular textile layer as a one-piece element; and folding the first tubular textile layer into the second tubular textile layer or folding the second tubular textile layer at least partially over the first tubular textile layer.
17. The method of claim 11, further comprising locating the first zone at least at an instep area, a heel area, a collar area or a throat area of the first tubular textile layer of the upper.
18. The method of claim 11, further comprising forming at least a part of a collar region of the first tubular textile layer of the upper with the first zone.
19. The method of claim 11, further comprising connecting the first zone at least to the collar region of the first tubular textile layer of the upper.
20. A method of manufacturing a shoe comprising: manufacturing an upper according to claim 11; and attaching a sole to the upper.
Description
SHORT DESCRIPTION OF THE FIGURES
[0027] Aspects of the present invention are described in more detail in the following by reference to the accompanying figures.
[0028] FIG. 1 shows an embodiment illustrating an upper for a shoe as a one-piece element prior to folding.
[0029] FIG. 2a shows another embodiment schematically illustrating an internal textile layer of a shoe upper including an indicated first zone in a medial side view.
[0030] FIG. 2b shows an embodiment schematically illustrating the internal textile layer of the shoe upper including the indicated first zone in a top view.
[0031] FIG. 3a shows a further embodiment schematically illustrating an internal textile layer of a shoe upper including an indicated first and second zone in a medial side view.
[0032] FIG. 3b shows an embodiment schematically illustrating the internal textile layer of the shoe upper including an indicated first and second zone in a top view.
[0033] FIG. 4 shows an embodiment of the present invention illustrating a shoe.
[0034] FIG. 5 shows an embodiment of the prior art illustrating a shoe.
[0035] FIG. 6 shows an embodiment schematically illustrating different shapes of the at least one first zone.
DETAILED DESCRIPTION OF SOME EXEMPLARY EMBODIMENTS
[0036] In the following, exemplary embodiments of the present invention are described in more detail, with reference to an upper of a shoe and the shoe. While specific feature combinations are described in the following with respect to the exemplary embodiments of the present invention, it is to be understood that the disclosure is not limited to such embodiments. In particular, not all features have to be present for realizing the invention, and the embodiments may be modified by combining certain features of one embodiment with one or more features of another embodiment.
[0037] FIG. 1 depicts an upper 100 for a shoe comprising a first tubular textile layer 110 and a second tubular textile layer 120. The two layers 110, 120 may be attached to each other at an ankle area of the upper to form a one-piece element or may be directly manufactured as a one-piece element. The first tubular textile layer 110 may be mainly knitted and includes a first zone 130, which may be incorporated into the first tubular textile layer 110 using an intarsia knitting technique or by similar methods. The first zone 130 includes a first yarn and the first tubular textile layer 110 includes a second yam. The first yarn is more resilient than the second yam. Therefore, the first zone 130 is adapted to provide desirable properties to the first zone such as shape-holding, stiffness, stretchability, stability and similar. Some embodiments may include more than one first zone 130, which may include the same first yam or a yam with a different degree of resilience than the first yarn, while still being more resilient than the second yarn.
[0038] The at least one first zone 130 includes a polygonal shape which may include sharp edges 133 and corners 131. The polygonal shape reduces creasing of the first 110 and second 120 tubular textile layer. A placement of the at least one polygonal first zone 130 at an instep area improves slipping of the foot of the wearer into the shoe including such an upper, due to a better instep area stretchability. The first yarn of the first zone 130 may include an elastic yarn, which may have an elastic thread as a core and a polyester yarn wrapped around this core as a sheath. Other embodiments may include different elastic yams.
[0039] An embodiment of the present invention provides a method to stabilize a first tubular textile layer 110 and a second tubular textile layer 120 due to a clever arrangement of at least one first zone 130. Therefore, a stretchability of such an upper 100 may be unimpeded by the means of stabilizing the shape of the upper 100 according to the present invention. This improves existing shoes, in which a considerable amount of low melting yarns, reinforcement linings, or chemi-sheets, for example, are used to keep a textile upper of a shoe in shape which affects the overall stretchability of the shoe and may even add unnecessary bulk and weight to the shoe upper.
[0040] The first tubular textile layer 110 of the upper 100 is folded into the second tubular textile layer 120 depicted by the arrow 140 in FIG. 1. Alternatively, the second tubular textile layer 120 may be at least partially folded over the first tubular textile layer 110 as depicted by the arrow 145 in FIG. 1. In an embodiment including a one-piece upper, such folding 140, 145 provides a method to introduce a foot receiving opening into a one-piece tubular textile element without the need of cutting or similar techniques. This may not only reduce the amount of waste produced but also reduce the risk of undesired stitch openings in knitted or woven textile layers. Furthermore, as the first zones 130 may be located only on the first tubular textile layer 110, which may be the internal textile layer of the upper 100 after folding 140, 145, the first zones 130 may be invisible to a wearer of a shoe including the upper 100 and therefore may not affect the outer design and look of the shoe.
[0041] FIGS. 2a and 2b schematically depict a first tubular textile layer 210 of a shoe upper for a shoe in a medial side view (FIG. 2a) and a top view (FIG. 2b) including an indicated first zone 230. The indicated first zone 230 includes a polygonal shape which may include rounded off edges 232 and corners 231. As mentioned above, the polygonal shape of the at least one first zone 230 prevents a wrinkling of the external textile layer and thus smoothens out the outer surface of the shoe upper resulting in a better overall look. The first zone 230 depicted in FIGS. 2a and 2b may form at least a part of the collar region 224 and may completely surround an ankle of a wearer of a shoe including the upper, which may also improve stepping in and/or putting on the shoe. The elastic yarn of the first zone 230 may prevent a collapsing of the collar region 224 and may at the same time provide a higher tolerance for manufacturing and fit as the upper is more flexible and adjustable. The higher tolerance for manufacturing also reduces the wastage of uppers due to bad fit resulting in an environmental friendlier manufacturing compared to already known methods while at the same time leads to notable cost savings and a more efficient production.
[0042] FIGS. 3a and 3b schematically depict a first tubular textile layer 310 of a shoe upper for a shoe in a medial side view (FIG. 3a) and a top view (FIG. 3b) including an indicated first zone 330 and an indicated second zone 335. The indicated first 330 and second zone 335 each include a polygonal shape which may include rounded off edges 332 as well as straight edges 333 and corners 331. In some embodiments the first zone 330 may also include rounded off corners (not shown). The first yarn of the first zone 330 may be different from or identical to the first yarn of the second zone 335, while both yarns are still more resilient than the second yarn of the first tubular textile layer 310. The second zone 335 depicted in FIGS. 3a and 3b may be located at an instep area and therefore may provide a controlled compression on a wearer's foot. The second zone 335 may be connected to the collar region including the first zone 330 which may result in a softer transition from the collar into the instep area to increase support and also comfort of wearing a shoe including such a first zone 330 and second zone 335. Additionally, the combination of zones 330, 335 as depicted in FIGS. 3a and 3b may also improve the slipping of the foot of the wearer into the shoe to make it smoother. Furthermore, the combination may also result in less post slipping-in adjustments, such as pulling or evening out of creases in the surfaces of the external and/or internal textile layer and therefore increases the satisfaction of the customers. It may be noted, that in another embodiment the at least one first zone may be also located at a different area of the first tubular textile layer 310 as for example a heel area 423, a quarter area 422 or a throat area 425, as indicated in FIG. 4.
[0043] FIG. 4 depicts a shoe 450 including an upper 400 and a sole 460. The upper 400 includes a first tubular textile layer folded into a second tubular textile layer 420, wherein both layers are mainly knitted textile layers. The folding provides an effective post processing of the mainly knitted one-piece tubular textile element into the upper 400 of the shoe 450, which may also be applicable to woven, non-woven, braided, crochet or similar manufactured textile layers (not shown). As depicted in FIG. 4, the polygonal shaped at least one first zone is completely covered by the external/second textile layer 420 of the upper 400 and is thus not directly visible to a wearer of the shoe 450. Therefore, the first/inner textile layer including at least one first zone may be manufactured solely according to its intended properties, such as shape-holding property of the internal and external layer, stiffness, stretchability, stability and the like without the limitations due to a desired design and look. On the other hand, the second/external textile layer including no first zone may be manufactured solely according to its intended properties, such as design, overall look, waterproofness or similar. Additionally, as the means for stabilizing the upper 400 of the shoe 450 may be provided by the at least one first zone including an elastic yarn, the stretchability of the shoe 450 may not be lost compared to existing stabilizing means. As depicted in FIG. 4, the at least one polygonal first zone including the more resilient first yarn incorporated into the first tubular textile layer smoothens out the folds and creases by taking in or pulling in the extra fabric that would otherwise form the crease or fold. Thus, it evens out the surface of the inner textile layer and correspondingly the external textile layer of the two-layered textile upper 400 of the shoe 450. The at least one first zone may further prevent a collar area 424 from collapsing in. Therefore, an optimized method of manufacturing a two-layered textile upper with an improved stability, sportive silhouette and overall look.
[0044] FIG. 5 depicts a shoe 550 manufactured according to methods known from the prior art that includes an upper 500 and a sole 560. The upper 500 includes a first tubular textile layer folded into a second tubular textile layer 520, wherein both layers are mainly knitted textile layers similar to the shoe 450 depicted in FIG. 4. However, the shoe 550 does not include a polygonal first zone including a first yarn incorporated into the first textile layer as defined by the present invention. The lack of such at least one first zone results in wrinkles, creases and folds 570 within the second tubular textile layer 520 and the upper 500 of the shoe 550 as depicted in FIG. 5. The wrinkles, creases and folds 570 of the shoe 550 occur in a region between a quarter area 522 and a heel area 523 and also at an instep area 521, which leads to a cheap and low-quality appearance and overall look of the shoe 550.
[0045] FIG. 6 schematically illustrates two examples of differently shaped polygonal first zones 630 and 635. The polygonal first zone 630 includes straight edges 633 and rounded off corners 634. Alternatively, the polygonal first zone 635 includes straight edges 633 in addition with rounded off edges 632 and corners 631. The different shapes of the polygonal first zone may be adapted according to its intended location at an upper of a shoe. For example, a rounded off edge 632 may provide an optimized shape of a polygonal first zone, if adapted to be located around an ankle of a wearer's foot.
[0046] Some embodiments described herein relate to an upper for a shoe that includes a first tubular textile layer and a second tubular textile layer, wherein the first tubular textile layer is at least partially surrounded by the second tubular textile layer thus forming an internal textile layer and an external textile layer. The first tubular textile layer of the upper for a shoe includes a first zone, the first zone includes a first yarn, the first tubular textile layer includes a second yarn, wherein the first yarn is more resilient than the second yarn, and wherein the first zone comprises a polygonal shape.
[0047] In any of the various embodiments described herein, at least 40% of the first tubular textile layer or the second tubular textile layer may be knitted.
[0048] In any of the various embodiments described herein, the first zone may be incorporated into the first tubular textile layer using an intarsia knitting technique.
[0049] Some embodiments described herein relate to a method of manufacturing an upper for a shoe, wherein the method includes manufacturing a first tubular textile layer having a first zone, wherein the first zone has a polygonal shape, manufacturing a second tubular textile layer, and surrounding at least partially the first tubular textile layer with the second tubular textile layer, wherein the first zone includes a first yarn and the first tubular textile layer includes a second yarn, and wherein the first yarn is more resilient than the second yarn.
[0050] In any of the various embodiments described herein, the polygonal shape of the first zone may include less than 20 corners.
