A flexible jewelry cable includes a plurality of helical links. Each link has a body that extends helically about a central axis of the link. Each link includes a protrusion extending from an inner surface of the body at or near ends of the body. Each protrusion defines a through hole that is coaxially aligned with the body. The body defines a female recess on the inner surface of the body, each recess corresponding to one protrusion. The recesses are at or near the ends of the body. One recess of a first one of the links is configured to receive one protrusion of a second one of the links and align the hole of the received protrusion with the hole of one protrusion of the first link. The cable includes a string extending through the aligned holes of the protrusions of the links.

A stackable jewelry system including first and second bands which can be stackable to form a stacked configuration in which (i) the first and second bands dispose in coaxial relation, and (ii) a second protrusion of the second band can be capable of radial alignment with a first opening of the first band.

There is provided herein a jewelry system comprising a first segment having a shape of a ring, the first segment comprising two coaxially positioned apertures being essentially parallel to the ring's plane; a second segment sized and shaped to fit within the ring of the first segment, wherein the second segment comprises an aperture extending therethrough; and a rod configured to extend through the apertures of the first and second segments, thereby securing the second segment within the ring of the first segment.

There is provided herein a jewelry system comprising a first segment having a shape of a ring, the first segment comprising two coaxially positioned apertures being essentially parallel to the ring's plane; a second segment sized and shaped to fit within the ring of the first segment, wherein the second segment comprises an aperture extending therethrough; and a rod configured to extend through the apertures of the first and second segments, thereby securing the second segment within the ring of the first segment.

A stackable jewelry system including first and second bands which can be stackable to form a stacked configuration in which (i) the first and second bands dispose in coaxial relation, and (ii) a second protrusion of the second band can be capable of radial alignment with a first opening of the first band.

An assembly structured to form a customizable structure, having variably configured geometric characteristics, which includes a plurality of hubs each having an interior chamber and a plurality of housings. Each housing includes an open-ended interior channel communicating with the interior chamber of a common hub. Each of a plurality of elastic links is retained within and extend outwardly from a different one of said interior channels. At least one elastic link may be disposed in interconnecting relation between two attached ones of the plurality of hubs and a predetermined number of a plurality of attached hubs may be interconnected to one another to define a closed, continuously configured array of hubs. A plurality of the closed, continuously configured array of hubs may be disposed in interconnected relation to one another to define one of a possible plurality of the customizable, variably configured structures.

An assembly structured to form a customizable structure, having variably configured geometric characteristics, which includes a plurality of hubs each having an interior chamber and a plurality of housings. Each housing includes an open-ended interior channel communicating with the interior chamber of a common hub. Each of a plurality of elastic links is retained within and extend outwardly from a different one of said interior channels. At least one elastic link may be disposed in interconnecting relation between two attached ones of the plurality of hubs and a predetermined number of a plurality of attached hubs may be interconnected to one another to define a closed, continuously configured array of hubs. A plurality of the closed, continuously configured array of hubs may be disposed in interconnected relation to one another to define one of a possible plurality of the customizable, variably configured structures.

A jewelry kit is described that includes at least a first and a second polygonal shape. Each shape includes a planar portion having a first side disposed opposite a second side and one or more walls located on a periphery of the first side of the planar portion and extending away from the first side of the planar portion to form an interior portion. A new polygonal shape is formed from affixing, via an adhesive or a magnetic connection, the second shape inside of the first shape or the second shape to the first shape in some fashion. Objects may be received within an interior portion of the new shape. At least one adjustable bale is affixed to an exterior wall of the new shape. At least one adjustable and spring-loaded jump ring is affixed to the exterior wall or another exterior wall of the new shape.

An assembly structured to form a customizable, variably configured geometric structure, which includes a plurality of hubs each having an interior chamber and a plurality of housings. Each housing includes an open-ended interior channel communicating with the interior chamber of a common hub. A each of a plurality of elastic links are retained within and extend outwardly from a different one of said interior channels. At least one elastic link may be disposed in interconnecting relation between two attached ones of the plurality of hubs and a predetermined number of a plurality of attached hubs may be interconnected to one another to define a closed, continuously configured array of hubs. A plurality of the closed, continuously configured array of hubs may be disposed in interconnected relation to one another to define one of a possible plurality of the customizable, variably configured geometric structures.

An assembly structured to form a customizable, variably configured geometric structure, which includes a plurality of hubs each having an interior chamber and a plurality of housings. Each housing includes an open-ended interior channel communicating with the interior chamber of a common hub. A each of a plurality of elastic links are retained within and extend outwardly from a different one of said interior channels. At least one elastic link may be disposed in interconnecting relation between two attached ones of the plurality of hubs and a predetermined number of a plurality of attached hubs may be interconnected to one another to define a closed, continuously configured array of hubs. A plurality of the closed, continuously configured array of hubs may be disposed in interconnected relation to one another to define one of a possible plurality of the customizable, variably configured geometric structures.