A shoe lace securement system has a pair of shoe lace securing mechanisms. Each of the pair of shoe lace securing mechanisms has a spool having a pair of circular discs connected together, wherein inward facing walls of each of the pair of circular discs have a plurality of protrusions. A hollow tube connects the pair of circular discs. A conduit is attached to an upper rear area of the shoe. A stretchable strap is inserted in the conduit. A cap member is attached to each end of the stretchable strap. A pair of securing clasps are provided, each of the securing clasps comprises a tubular member having a hollow interior, the tubular member cut along a first horizontal edge through the hollow interior to a second horizontal edge, the tubular member hingly coupled at the second horizontal edge; a first opening formed through a top surface of the tubular member and in the hollow interior, and a second opening formed through a bottom surface of the tubular member and in the hollow interior.

A shoe lace securement system has a pair of shoe lace securing mechanisms. Each of the pair of shoe lace securing mechanisms has a spool having a pair of circular discs connected together, wherein inward facing walls of each of the pair of circular discs have a plurality of protrusions. A hollow tube connects the pair of circular discs. A conduit is attached to an upper rear area of the shoe. A stretchable strap is inserted in the conduit. A cap member is attached to each end of the stretchable strap. A pair of securing clasps are provided, each of the securing clasps comprises a tubular member having a hollow interior, the tubular member cut along a first horizontal edge through the hollow interior to a second horizontal edge, the tubular member hingly coupled at the second horizontal edge; a first opening formed through a top surface of the tubular member and in the hollow interior, and a second opening formed through a bottom surface of the tubular member and in the hollow interior.

Systems and apparatus related to footwear including a modular lacing engine are discussed. In this example, the lace guide is deformable to assist in facilitating automated lace tightening. The lace guide can include a middle section, a first extension and a second extension. In this example, the lace guide can be configured to define a first route for a lace cable, the first route including receiving the lace cable along the first incoming lace axis and expelling the lace cable along the first outgoing lace axis. In this example, the lace guide can also deflect, in response to tension on the lace cable, resulting in defining a second route for the lace cable, the second route including receiving the lace cable along a second incoming lace axis and expelling the lace cable along a second outgoing lace axis.

According to an embodiment, a component for attachment to an article includes an upper component that is made of a thermoplastic material having a first melting temperature and a flange member that is molded onto the upper component and made of a thermoplastic elastomer material having a second melting temperature that is lower than the first melting temperature of the upper component. The flange member extends laterally from a bottom end of the upper component so that a bottom surface of the flange member is flush with or positioned axially below a bottom surface of the upper component. The melting temperature of the thermoplastic elastomer material enables the flange member to be directly coupled to the article via heat welding and the like without substantially affecting the upper component.

According to an embodiment, a component for attachment to an article includes an upper component that is made of a thermoplastic material having a first melting temperature and a flange member that is molded onto the upper component and made of a thermoplastic elastomer material having a second melting temperature that is lower than the first melting temperature of the upper component. The flange member extends laterally from a bottom end of the upper component so that a bottom surface of the flange member is flush with or positioned axially below a bottom surface of the upper component. The melting temperature of the thermoplastic elastomer material enables the flange member to be directly coupled to the article via heat welding and the like without substantially affecting the upper component.

According to an embodiment, a component for attachment to an article includes an upper component that is made of a thermoplastic material having a first melting temperature and a flange member that is molded onto the upper component and made of a thermoplastic elastomer material having a second melting temperature that is lower than the first melting temperature of the upper component. The flange member extends laterally from a bottom end of the upper component so that a bottom surface of the flange member is flush with or positioned axially below a bottom surface of the upper component. The melting temperature of the thermoplastic elastomer material enables the flange member to be directly coupled to the article via heat welding and the like without substantially affecting the upper component.

According to an embodiment, a component for attachment to an article includes an upper component that is made of a thermoplastic material having a first melting temperature and a flange member that is molded onto the upper component and made of a thermoplastic elastomer material having a second melting temperature that is lower than the first melting temperature of the upper component. The flange member extends laterally from a bottom end of the upper component so that a bottom surface of the flange member is flush with or positioned axially below a bottom surface of the upper component. The melting temperature of the thermoplastic elastomer material enables the flange member to be directly coupled to the article via heat welding and the like without substantially affecting the upper component.

According to one embodiment, a removable tightening device is described. The tensioning mechanism is removably coupleable with an article without damaging the article so that upon removal, the coupling of the tensioning mechanism with the article is unrecognizable or not readily detectable. The tensioning mechanism is operable with a tension member to maintain a tension of the tension member and thereby maintain a tightness of the article. The tension member is guided along a path about the article, via one or more guide members, and is tensionable, via the tensioning mechanism, to tighten the article.

An article of footwear including a 360 lacing system configured to secure the footwear to a wearer's foot. The lacing system includes an elongated lace that extends rearward adjacent an ankle collar, around a heel of the footwear, and forward again. The lacing system includes one or more fairleads that project outwardly from the ankle collar. The fairleads define fairlead holes through which the lace is extends. The lace is slidable relative to the holes, and thus the fairleads, and can be removed from and replaced relative to the fairleads with minimal effort. A related method of utilizing the article of footwear is also provided.

According to an embodiment, a component for attachment to an article includes an upper component that is made of a thermoplastic material having a first melting temperature and a flange member that is molded onto the upper component and made of a thermoplastic elastomer material having a second melting temperature that is lower than the first melting temperature of the upper component. The flange member extends laterally from a bottom end of the upper component so that a bottom surface of the flange member is flush with or positioned axially below a bottom surface of the upper component. The melting temperature of the thermoplastic elastomer material enables the flange member to be directly coupled to the article via heat welding and the like without substantially affecting the upper component.