Abstract: Features relating to a vaporizer device including a vaporizer body and a cartridge for connecting to the vaporizer body are provided. The cartridge includes a wireless transceiver positioned proximate a distal end of the cartridge. The wireless transceiver is configured to transmit, receive, and/or store data and to communicate with a subset of remote devices, which may include the vaporizer body and one or more additional devices such as manufacturing, assembly, and filling equipment. The vaporizer body includes wireless communication circuitry that enables communication with remote devices, which may include the cartridge and user devices such as a wireless device. The vaporizer body is configured to identify the cartridge and implement operational instructions and/or apply configuration parameters received from an application and/or based on preset configuration parameters associated with the cartridge.

Abstract: A vaporizer device may include a controller and a heater control circuitry. The controller may generate, based at least on a temperature of a heating coil in a cartridge coupled with the vaporizer device, an output signal for controlling a discharge of a battery of the vaporizer device. The battery may be discharged to the heating coil to increase the temperature of the heating coil and cause a vaporization of a vaporizable material contained in the cartridge. The heater control circuitry may determine the temperature of the heating coil. The heater control circuitry may further control, based on the output signal from the controller, the discharge of the battery to the heating coil. The heater control circuitry may be powered by a voltage rail coupled to a voltage regulator configured to regulate an output voltage of the battery.

Abstract: Features relating to a vaporizer body are provided. The vaporizer body may include an outer shell that includes an inner region defined by an outer shell sidewall. A support structure is configured to fit within the inner region of the outer shell. The support structure includes a storage region defined by a top support structure, a bottom support structure, a bottom cap, and a gasket. An integrated board assembly is configured to fit within the storage region of the support structure. The integrated board assembly may include a printed circuit board assembly formed of multiple layers that form a rigid structure and that include an inner, flexible layer. A first antenna is integrated at a proximal end of the flexible layer, and a second antenna is integrated at a distal end of the flexible layer.

Abstract: A vaporizer device may include a pressure sensor and an ambient pressure sensor. The pressure sensor may be configured to measure a first pressure in an air flow path in the vaporizer device. The ambient pressure sensor may be configured to measure a second pressure corresponding to an atmospheric pressure. The vaporizer device may further include a controller. The controller may be configured to transition the vaporizer device to a first standby mode when the first pressure is equal to or greater than the second pressure for a first threshold quantity of time. While the vaporizer device is in the first standby mode, the controller may be further configured to transition the vaporizer device to a second standby mode when the second pressure is a threshold quantity greater than the first pressure and no motion event is detected for a second threshold quantity of time.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: An adjustable sprinkler system includes a plurality of sprinkler units disposed about an area to receive water. Each sprinkler unit includes a tapered base portion driven into the earth, and a pair of connector nipples to receive and retain flexible tubing which connects the sprinkler units and supplies water under pressure thereto. Each sprinkler unit includes a cylindrical member extending upwardly from the tapered base portion, with a cap threaded onto the exterior of the cylindrical portion. An arbor is received in a bore in the cylindrical member and is secured pivotally therein. The arbor is rotatable to adjust the rate of flow of water from the sprinkler, while the cap is rotatable independently to vary the spray pattern issuing from each sprinkler.

Abstract: A lockable cover assembly for a push-button key pad, such as for telephones or the like, includes a face plate having apertures through which the push-buttons extend outwardly. The face plate also includes a plurality of slots along one edge thereof, and a lock access hole disposed adjacent to the opposing edge. A key pad cover includes a plurality of locking lugs along one edge which engage the slots of the key pad cover, and a lock disposed at the opposing edge of the cover. The lock includes a shaft which extends through the access hole of the cover to engage an inner portion of the housing of the unit being protected.