Patent application number | Description | Published |
20120285562 | CONTROL MECHANISM FOR A PRESSURIZED SYSTEM - A control mechanism including a stop element, an attractor element, and an actuation element disposed between the stop element and the attractor element. The actuation element is preferably magnetically attracted to the attractor element, and translates between a first position, proximal the attractor element, and a second position, defined by the stop element. The control mechanism is preferably utilized within a pressurized system, wherein the actuation element actuates a valve in the second position to prevent further pressurization of a pressurized reservoir. | 11-15-2012 |
20130251552 | ENERGY EXTRACTION SYSTEM - An energy extraction system for a rotational surface including a drive mechanism having a rotational axis and configured to rotatably couple to the rotational surface and an energy extraction mechanism coupled to the drive mechanism. The drive mechanism includes a cam rotatable about the rotational axis and an eccentric mass coupled to the cam that offsets a center of mass of the drive mechanism from the rotational axis, the eccentric mass cooperatively formed by a first and a second section, the eccentric mass operable between a connected mode wherein the first and second sections are adjacent and a disconnected mode wherein the first and second sections are separated. The energy extraction mechanism is connected to the cam and is statically coupled to the rotating surface, wherein the energy extraction mechanism configured to extract energy from relative rotation between the energy extraction mechanism and the cam. | 09-26-2013 |
20130251553 | TIRE INFLATION SYSTEM - A tire inflation system including a drive mechanism having a rotational axis, a pump cavity positioned a radial distance away from the axis of rotation, and a force translator coupling the rotational axis to the pump cavity. The drive mechanism includes a cam comprising an arcuate bearing surface having a non-uniform curvature, the cam rotatable about the rotational axis, and an eccentric mass couple to the cam that offsets a center of mass of the drive mechanism from the rotational axis. The pump cavity is rotatably coupled to the cam, wherein the pump cavity includes an actuating element and a chamber. The force translator couples the arcuate bearing surface to the actuating element, wherein the force translator includes an axis having an arcuate position fixed to an arcuate position of the pump cavity. | 09-26-2013 |
20140000755 | TIRE INFLATION SYSTEM | 01-02-2014 |
20140000756 | PASSIVE PRESSURE REGULATION MECHANISM | 01-02-2014 |
20140003969 | ENERGY EXTRACTION SYSTEM | 01-02-2014 |
20140093402 | PASSIVE PRESSURE REGULATION MECHANISM - A pump system including a drive mechanism that provides a pumping force, a primary pump including a first pump cavity, an actuating element in reciprocal relation with the first pump cavity, and an outlet fluidly connected to a reservoir, a force translator that facilitates pump force transfer from the drive mechanism to the actuating element, a pressure regulation mechanism including a reciprocating pump that includes a pump chamber including an inlet manifold fluidly connected to the reservoir, a valve located within the inlet manifold, and a reciprocating element in reciprocal relation with the pump chamber. The pressure regulation mechanism preferably passively ceases force transfer from the drive mechanism to the primary pump based on the pressure of the reservoir. | 04-03-2014 |
20140186195 | TIRE INFLATION SYSTEM - A tire inflation system including a drive mechanism having a rotational axis, a pump cavity positioned a radial distance away from the axis of rotation, and a force translator coupling the rotational axis to the pump cavity. The drive mechanism includes a cam comprising an arcuate bearing surface having a non-uniform curvature, the cam rotatable about the rotational axis, and an eccentric mass couple to the cam that offsets a center of mass of the drive mechanism from the rotational axis. The pump cavity is rotatably coupled to the cam, wherein the pump cavity includes an actuating element and a chamber. The force translator couples the arcuate bearing surface to the actuating element, wherein the force translator includes an axis having an arcuate position fixed to an arcuate position of the pump cavity. | 07-03-2014 |