Abstract: Assemblies combining a structure, such as a structure defined by magnetic connector pieces, with a slide assembly. In some embodiments, the slide assembly may comprise a plurality of slide pieces configured to be coupled together so as to define a slide configured to receive and direct one or more slideable pieces, such as balls, therein. The slide assembly may further comprise a plurality of slide coupling members configured to couple at least a subset of the plurality of slide pieces to the structure. The plurality of slide pieces may comprise a plurality of coupling joints configured to couple two adjacent slide pieces of the plurality of slide pieces together. Each of at least a subset of the plurality of coupling joints may be configured to be positioned at the same location in at least one dimension with respect to an adjacent structure piece upon being coupled with the structure.
Abstract: A magnetic connector apparatus may comprise one or more magnet housings, each of which may comprise one or more magnets positioned therein to rotate within the magnet housing(s). The apparatus may be configured using one or more safety features in order to prevent access and/or removal of the magnet(s). In some embodiments, the apparatus may further comprise an inner retainer piece coupled with the one or more magnet housings, a first outer housing piece coupled with the inner retainer piece, and a second outer housing piece coupled with the inner retainer piece. The first outer housing piece may be positioned on an opposite side of the connector apparatus from the second outer housing piece such that the inner retainer piece is positioned in between the first outer housing piece and the second outer housing piece. Novel methods for manufacturing a magnetic connector apparatus are also disclosed.
Abstract: A magnetic connector apparatus may comprise one or more magnet housings, each of which may comprise one or more magnets positioned therein to rotate within the magnet housing(s). The apparatus may be configured using one or more safety features in order to prevent access and/or removal of the magnet(s). In some embodiments, the apparatus may further comprise an inner retainer piece coupled with the one or more magnet housings, a first outer housing piece coupled with the inner retainer piece, and a second outer housing piece coupled with the inner retainer piece. The first outer housing piece may be positioned on an opposite side of the connector apparatus from the second outer housing piece such that the inner retainer piece is positioned in between the first outer housing piece and the second outer housing piece. Novel methods for manufacturing a magnetic connector apparatus are also disclosed.
Abstract: A universal connector apparatus may comprise a connection member having one or more connection edges. One or more multi-pole magnetic assemblies may be rotatably secured adjacent one or more of the connection edges. Each multi-pole magnetic assembly may be configured to rotate about a longitudinal axis in order to align opposite polarities and magnetically link the respective connection edge with a connection edge of another connector apparatus or other magnetic form. According to various embodiments, each multi-pole magnetic assembly may include a first half and a second half extending along a longitudinal axis. The first half may include a plurality of magnetic sections of alternating polarities and the second half may include a corresponding number of magnetic sections each having a polarity opposite that of an adjacent magnetic section in the first half.