APEX TECHNOLOGIES, INC. Patent applications |
Patent application number | Title | Published |
20140268835 | Electrical Rail Systems with Axially Interleaved Contact Arrays - An improved electrical rail system for removable and repositionable lighting or other electrical fixtures is disclosed in which electrical interface contacts are interleaved along the rail axis to provide a wide range of fixture pivoting angles around the axis and linear translation along the axis of the rail assembly. Track systems disclosed include linear electrode rails with substantially circumferential contacts configured to provide pivoting of luminaires around the rail in excess of 180 degrees to provide lighting fixture directional flexibility. Helical rail systems are also disclosed with a plurality of interleaved electrical contacts on the surface that coil around the axis of the rail providing continuous pivoting of fixtures. Embodiments include rails with axial symmetry that may be bent in directions perpendicular to the rail axis. Embodiments provide fixture functional switching through movement in a first direction followed by further movement of the fixture without functional switching. | 09-18-2014 |
20140153265 | MODULAR LIGHTING SYSTEM AND METHOD EMPLOYING LOOSELY CONSTRAINED MAGNETIC STRUCTURES - A lighting system including modules containing LEDs or other electroluminescent devices and loosely constrained magnetic structures at least partially contained within cavities in the module substrate that are connected to fixtures under magnetic force. The loosely constrained magnetic structures accommodate mechanical variations in the system and provide a method to connect modules mechanically, electrically and thermally to different fixtures or positions in fixtures without tools. The relatively short distance separating magnetic structures provides high connection forces with the use of relatively small magnets. Magnets and electrical contacts are not located directly between the LED subassembly and the fixture, which provides higher thermal conductivity pathways to remove heat from the LEDs. Biasing members may be used to increase thermal contact. Magnetic structures may, but are not required, to conduct electricity. Fixtures that attach to modules include rails, sockets, heat sinks and two-dimensional structures with recessed electrodes for improved electrical safety. | 06-05-2014 |
20130273752 | INTERPOSER CONNECTORS WITH MAGNETIC COMPONENTS - Disclosed are interposer electrical connector embodiments including magnetic components used to facilitate interconnection of peripheral devices to standard input/output, or “I/O”, connectors (such as USB connectors) of devices such as mobile communications products (e.g. smart phones, tablets, and personal computers). The interposer connector embodiments disclosed include those in which a plurality of discrete permanent magnets are arranged with magnetic poles aligned in the same orientation perpendicular to and on one side of the electrical interface. Other embodiments include a plurality of bar permanent magnets located on opposite sides of the interface with all poles of the same type directed at the interface, but each one opposing a ferromagnetic element. These arrangements provide self-aligning capabilities useful for electrical connections that have restrictions on visibility or connection approach geometries. Other embodiments have a single magnet per mated connector pair and magnetic pole pieces and/or actuators to concentrate magnetic flux providing the magnetic attractive force for a plurality of electrical connections. | 10-17-2013 |
20100197148 | FLEXIBLE MAGNETIC INTERCONNECTS - A flexible magnetic interconnect is disclosed. In one embodiment, an apparatus includes a module having a recess therein. A magnetic structure is moveable within the recess and a flexible circuit cooperates with the module to retain the magnetic structure within the recess. Movement of the magnetic structure is caused by magnetic attraction between the magnetic structure and an external magnetic structure. The flexible circuit includes a compliant contact, which changes shape by movement of the magnetic structure. | 08-05-2010 |