A garment adjustment system includes a first connective element removably fastened to a garment by at least a first fastener affixed to the garment in a first location. A second connective element is removably fastened to the garment by at least a second fastener affixed to the garment in a second location. A linking component is linked to the first connective element and the second connective element such that adjustment of the linking component changes a distance between the first location and the second location of the garment.

A lace-receiving assembly includes a substrate, a first sheet, and a lace guide. The substrate includes a first surface and a second surface opposite the first surface. The first sheet includes a third surface and a fourth surface opposite the third surface. The third surface is bonded to the first surface to define a channel extending between the substrate and the first sheet. The lace guide is disposed within the channel.

A shoe fastening system designed to engage the eyelet holes of a shoe, comprising, an anchor, wherein the anchor has a first end and a second end, wherein the first end has means to detachably engage with an eyelet of a shoe and the second end has a connection means, an attachment member having a first end and a second end, wherein the first end is designed to securely fit within the connection means of the anchor and the second has a closed loop, a strap, wherein the strap is sized to fit through the closed loop of the attachment member and is a predetermined length and width, and a locking mechanism fitted to receive the strap and engage the strap to keep the strap at a specific length.

A lace fitting structure for fitting an upper 3 wrapping around an instep of a foot to the instep, the structure including: a medial side portion 31 covering the instep and a medial side surface of a big toe; a lateral side portion 32 covering the instep and a lateral side surface of a little toe; first shoelace means 1 placed to extend in a longitudinal direction Y of the foot and engaged with the medial side portion 31 and the lateral side portion 32 along central edge portions 33 of the medial side portion 31 and the lateral side portion 32; placement means for placing a portion of the first shoelace means 1 so that the first shoelace means 1 is exposed in a plurality of exposed areas 1.sub.i, which are separated from one another in the longitudinal direction Y; and second shoelace means 2 engaging, in a transverse direction X of the foot, with the first shoelace means 1 in the plurality of exposed areas 1.sub.i so as to bring the medial side portion 31 and the lateral side portion 32 closer to each other, wherein a length L of the exposed areas 1.sub.i in the longitudinal direction Y is greater than a thickness and a width of the second shoelace means 2.

A lace-receiving assembly includes a substrate, a first sheet, and a lace guide. The substrate includes a first surface and a second surface opposite the first surface. The first sheet includes a third surface and a fourth surface opposite the third surface. The third surface is bonded to the first surface to define a channel extending between the substrate and the first sheet. The lace guide is disposed within the channel.

Systems and apparatus related to footwear including a modular lacing engine are discussed. In this example, the footwear assembly can include a footwear upper and a lace cable running through a plurality of lace guides. The plurality of lace guides can be distributed along the medial side and the lateral side, and each lace guide of the plurality of lace guides can be adapted to receive a length of the lace cable. The lace cable can extend through each of the plurality of lace guides to form a pattern along each of the medial side and lateral side of the footwear upper. The footwear assembly can also include a medial proximal lace guide routing the lace cable into a lacing engine disposed within a mid-sole portion. Finally, the footwear assembly includes a lateral proximal lace guide to route the lace cable out of the lacing engine.

Systems and apparatus related to footwear including a modular lacing engine are discussed. In this example, the footwear assembly can include a footwear upper and a lace cable running through a plurality of lace guides. The plurality of lace guides can be distributed along the medial side and the lateral side, and each lace guide of the plurality of lace guides can be adapted to receive a length of the lace cable. The lace cable can extend through each of the plurality of lace guides to form a pattern along each of the medial side and lateral side of the footwear upper. The footwear assembly can also include a medial proximal lace guide routing the lace cable into a lacing engine disposed within a mid-sole portion. Finally, the footwear assembly includes a lateral proximal lace guide to route the lace cable out of the lacing engine.

A shoe fastening system designed to engage the eyelet holes of a shoe, comprising, an anchor, wherein the anchor has a first end and a second end, wherein the first end has means to detachably engage with an eyelet of a shoe and the second end has a connection means, an attachment member having a first end and a second end, wherein the first end is designed to securely fit within the connection means of the anchor and the second has a closed loop, a strap, wherein the strap is sized to fit through the closed loop of the attachment member and is a predetermined length and width, and a locking mechanism fitted to receive the strap and engage the strap to keep the strap at a specific length.

Systems and apparatus related to footwear including a modular lacing engine are discussed. In this example, the footwear assembly can include a footwear upper and a lace cable running through a plurality of lace guides. The plurality of lace guides can be distributed along the medial side and the lateral side, and each lace guide of the plurality of lace guides can be adapted to receive a length of the lace cable. The lace cable can extend through each of the plurality of lace guides to form a pattern along each of the medial side and lateral side of the footwear upper. The footwear assembly can also include a medial proximal lace guide routing the lace cable into a lacing engine disposed within a mid-sole portion. Finally, the footwear assembly includes a lateral proximal lace guide to route the lace cable out of the lacing engine.

A lace-receiving assembly includes a substrate, a first sheet, and a lace guide. The substrate includes a first surface and a second surface opposite the first surface. The first sheet includes a third surface and a fourth surface opposite the third surface. The third surface is bonded to the first surface to define a channel extending between the substrate and the first sheet. The lace guide is disposed within the channel.