A fully automated, integrated, end-to-end synchronized and compact manufacturing system produces polymer or metal case ammunition. Manufacturing stations support case assembly, sealing (gluing/welding), final product inspection, cartridge packaging or binning, and loading. Station modularity facilitates rapid changeover to accommodate ammunition of differing calibers. Sensors and apparatus may be provided to place a manufacturing cell in a wait state until all components or materials are received in a preferred orientation for proper assembly. The system may join and use multipart cases, each including a lower portion with a head end attached thereto and at least one upper portion having a necked-down transition to the open top end. Elevator feeders, vibratory bowl feeders, and robotic pick-and-place feeders may be used to deliver components for assembly.

Particles are sorted into paths based on a measurable parameter by forming them into a stream in at least one duct carried on a body rotating around an axis where the duct is shaped so that the particles are accelerated to cause the particles separated into the duct to be aligned one after another in a row in the duct. The parameter of the particles are measured in the aligned stream one after the other and the particles are directed into one of a plurality of paths as determined by the measurement. In one arrangement the body comprises a disk member having a front face facing a supply conduit and the duct lies in a radial plane of the disk member. In one arrangement the measurement of the parameter is carried out by one or more measurement devices either carried on the disk or outside the edge of the disk.

Particles are sterilized by application of a sterilizing agent such as UV light while singulated by forming them into a stream in at least one duct carried on a body rotating around an axis where the duct is shaped so that the particles are accelerated to cause the particles separated into the duct to be aligned one after another in a row in the duct. The parameter of the particles are measured in the aligned stream one after the other and the particles are directed into one of a plurality of paths as determined by the measurement. In one arrangement the body comprises a disk member having a front face facing a supply conduit and the duct lies in a radial plane of the disk member. In one arrangement the measurement of the parameter is carried out by one or more measurement devices either carried on the disk or outside the edge of the disk.

An article feed system for aligning and singulating incoming articles includes a rotatable upper rim surface and an article delivery device that delivers articles received by the article delivery device to the upper rim surface. A drive system is operatively connected to the disk assembly that rotates the bowl assembly and the assemblies rotate at different speeds but in the same direction. A guide wall extends upwardly above the upper rim surface that guides the articles travelling along the upper rim surface toward an exit opening in the guide wall. A vertically oriented article engaging-type conveyor is at the exit opening in the guide wall. The vertically oriented article engaging-type conveyor includes a moving article engaging surface that is exposed to the exit opening in the guide wall for receiving the articles when they exit the exit opening.

A fully automated, integrated, end-to-end synchronized and compact manufacturing system produces polymer or metal case ammunition. Manufacturing stations support case assembly, sealing (gluing/welding), final product inspection, cartridge packaging or binning, and loading. Station modularity facilitates rapid changeover to accommodate ammunition of differing calibers. Sensors and apparatus may be provided to place a manufacturing cell in a wait state until all components or materials are received in a preferred orientation for proper assembly. The system may join and use multipart cases, each including a lower portion with a head end attached thereto and at least one upper portion having a necked-down transition to the open top end. Elevator feeders, vibratory bowl feeders, and robotic pick-and-place feeders may be used to deliver components for assembly.

An unjamming system is used in connection with mass-produced parts fed through a process by a rotating bowl feeder. The bowl feeder has a bowl with an axis of rotation and an outer wall. The parts are disposed against the outer wall by centrifugal force. The unjamming system includes a jamming region adjacent the bowl, wherein unjamming is carried out. A sensor adjacent the jamming region detects a jam. A pneumatic cylinder actuator and an air blow jet adjacent the jamming region removes the parts from the jam. The parts are returned to the bowl by the air blow jet.

A feed unit, for example for feeding components to smoking article assembly apparatus, includes a rotary device having one or more channels (7) adapted to receive components, one on top of another, and one or more pushers (21) associated with each channel. The feed unit also has a track (14) to receive components from outlets of the one or more channels (7) and the rotary device is configured to rotate with respect to the track (14) so that components pass through the channels (7) and are pushed along the track by the pushers (21) for output from the feed unit.

Particles are sorted into paths based on a measurable parameter by forming them into a stream in at least one duct carried on a body rotating around an axis where the duct is shaped so that the particles are accelerated to cause the particles separated into the duct to be aligned one after another in a row in the duct. The parameter of the particles are measured in the aligned stream one after the other and the particles are directed into one of a plurality of paths as determined by the measurement. In one arrangement the body comprises a disk member having a front face facing a supply conduit and the duct lies in a radial plane of the disk member. In one arrangement the measurement of the parameter is carried out by one or more measurement devices either carried on the disk or outside the edge of the disk.

Particles are sorted into paths based on a measurable parameter by forming them into a stream in at least one duct carried on a body rotating around an axis where the duct is shaped so that the particles are accelerated to cause the particles separated into the duct to be aligned one after another in a row in the duct. The parameter of the particles are measured in the aligned stream one after the other and the particles are directed into one of a plurality of paths as determined by the measurement. In one arrangement the body comprises a disk member having a front face facing a supply conduit and the duct lies in a radial plane of the disk member. In one arrangement the measurement of the parameter is carried out by one or more measurement devices either carried on the disk or outside the edge of the disk.

An article feed system for aligning and singulating incoming articles includes a rotatable upper rim surface and an article delivery device that delivers articles received by the article delivery device to the upper rim surface. A drive system is operatively connected to the disk assembly that rotates the bowl assembly and the assemblies rotate at different speeds but in the same direction. A guide wall extends upwardly above the upper rim surface that guides the articles travelling along the upper rim surface toward an exit opening in the guide wall. A vertically oriented article engaging-type conveyor is at the exit opening in the guide wall. The vertically oriented article engaging-type conveyor includes a moving article engaging surface that is exposed to the exit opening in the guide wall for receiving the articles when they exit the exit opening.