Abstract: Embodiments of the inventive technology disclosed herein may improve efficiency of conveyed bottle apparatus by providing bottle jam prevention guides that may be rotatable, whether freely or in response to a motorized force. Such guides may force downward a bottle that undergone excessive swing in a forward and/or rearward direction, and thus has jammed or is in an incipient jam condition. Advantages may include not only increased efficiency of a conveyed bottle process, but also reduction or even elimination of chatter.

Abstract: Particular embodiments of the inventive technology disclosed herein relate to the use of a dynamic valve to reduce motion caused by impulse force applied to a positioned component. Typically, the inventive technology finds application in an internally pressurized positioning system. At times, use of the inventive technology may lead to cost savings by, e.g., allowing for the use of smaller diameter positioner actuators and/or a reduced internal pressure.

Abstract: Particular embodiments of the inventive technology may be described as a position control apparatus capable of moving at least one side guide component of an item conveyance system to any of a plurality of component positions, as desired, within a component position range. The apparatus may comprise a fluidic drive system configured to drive, with a single fluidic displacement, a plurality of positioners in a first relative direction; and a bias system that includes a plurality of biasers that bias the positioners in a direction that is opposite the first relative direction. The bias system may include at least one biaser for every positioner, and the apparatus may enable adjustment of the positioners to a plurality of positions within a positioner range. The positioners may effect positioning, as desired, of the at least one component to a desired component position within the component position range.

Abstract: Disclosed herein are embodiments of inventive multipositioner technology relating to multipositioner apparatus having discrete positioning capability and, relative to each discrete position, incremental positioning capability. As compared with prior art apparatus, embodiments of the inventive technology may afford: operational resolution for larger positional ranges, reduced cylinder length to achieve positioning as desired, enhanced positioning capability and/or robustness of design.

Abstract: The inventive technology, in embodiments, may include a controller configured to coordinate operation of valves and remotely controllable regulators that are fluidically communicative therewith, allowing the control of positioners of positioner zones that are fluidically communicative with such remotely controllable regulators. Preferred embodiments may find application as, e.g., a pneumatic system to control positioners, whether such positioner find use in bottling applications or elsewhere. Additional aspects of the inventive technology may relate to methods for pressurized fluid positioner control.

Abstract: Particular embodiments of the inventive technology may be described as a position control apparatus that comprises a fluidic drive system configured to drive, with a single fluidic displacement, each of a plurality of positioners in a first relative direction; and a bias system that includes a plurality of biasers that bias the positioners in a direction that is opposite the first relative direction. In particular embodiments, and as but a few of the many possible design features, positioner actuators may be fluidicly linked in parallel and with the fluid compressor, the positioner actuators may each include a piston; and a plurality of positioners may each be responsive to at least one of the pistons.

Abstract: Particular embodiments of the inventive technology may be described as a position control apparatus capable of moving at least one side guide component of an item conveyance system to any of a plurality of component positions, as desired, within a component position range. The apparatus may comprise a fluidic drive system configured to drive, with a single fluidic displacement, a plurality of positioners in a first relative direction; and a bias system that includes a plurality of biasers that bias the positioners in a direction that is opposite the first relative direction. The bias system may include at least one biaser for every positioner, and the apparatus may enable adjustment of the positioners to a plurality of positions within a positioner range. The positioners may effect positioning, as desired, of the at least one component to a desired component position within the component position range.