As described above, this new primer feed system is both accurate and consistent. The primer feed station begins by loading primers from the vendor packaging into the vibratory feed bowl via the primer chute. The bowl has an adjustable height polycarbonate guard that is inside the main safety polycarbonate doors and exits above the machine. The bowl then orients the primers open side up and discharges them into the primer track. Crimping can be done with 3 or 5 pins or a complete radial crimp. Previous versions of the crimp station on these crimping machines involved a pin mounted to the upper ram and a lower pin actuated by the lower ram. It was difficult to time and adjust properly for a consistent crimp. This new approach to crimping has proved much more reliable, accurate and easier to adjust. It still utilizes an upper pin mounted to the upper moving ram assembly but the lower pin is fixed.

An automated machine for organizing and feeding cylindrical products includes a conveyor to space apart the cylindrical products. A pair of elongated rollers is disposed downstream from the conveyor to orient the cylindrical products in the same direction. A miter wheel disposed downstream of the pair of elongated rollers transfers the cylindrical products from the pair of rollers to a vertical accumulation chamber while changing the orientation of the cylindrical products from a vertical alignment to a horizontal alignment. The cylindrical products are discharged from the vertical accumulation chamber to a take away conveyance. Operation of the components of the automated machine can be controlled by a computer. Optical sensors can be employed to monitor flow of the cylindrical products through the automated machine during operation.

Disclosed is a projectile comprising: (1) a metal core, such as a copper alloy core, including a base and a tip, where the base and the tip are separated by a core length along a z-axis running longitudinally through a center of the metal core; and (2) a jacket circumferentially attached to the metal core, the jacket surrounding at least fifty percent of the core length of the metal core, where the jacket includes: a polymer and a first jacket radial thickness along at least a section of an interquartile portion of the core length of greater than 0.03 inches.

A powder compaction device is disclosed. The device has a drive motor operable connected to a compaction rod that moves through a loading platform to a cartridge holding platform. A powder loading station is positioned below the loading platform and above the cartridge holding platform. The compaction rod moves through the powder loading station, which loads a predetermined volume of propellant powder into one or more reliefs defined in the compaction rod. The cartridge holding platform has a removable cartridge fixture designed to receive an ammunition cartridge to be loaded and compacted with propellant powder. The propellant powder is released into the cartridge fixture from the reliefs as the compaction rod passes a funnel defined at an upper end of the fixture. After releasing the powder, the compaction rod continues into an interior chamber of the fixture to compact the powder contained therein.

The pellet orienting device orients air gun pellets such that the pellets will point up in preparation for them to be loaded into air gun magazines or cartridges, comprising a tray with multiple holes that are the same diameter as a pellet and partially bored into the tray, a border wall at the perimeter edges of the tray that keeps the pellets from sliding off of the tray during its use, a corresponding lid with pins protruding from it that align with the holes in the tray so that during the loading process the pins will retain the positions of the pellets, furthermore the pins also set the depth that the pellets are seated at into the air gun magazines or cartridges such that the pellets are not protruding from, and may be recessed into the air gun magazines or cartridges.

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.

A ram with a multi-axis, multi-directional “self-centering shell holder” having predetermined spacing with respect to its engagement with the shell holder so that the shell holder supporting the cartridge case has the ability to deviate from the ram centerline in any direction to re-align with a centerline of the die bore is provided. The present invention also provides a retaining clip with push down tab allowing for quick insertion and removal of the self-aligning shell holder from the ram top.

The present invention includes a powder compaction device comprising a loading platform positioned above a lower platform; a compaction rod aperture positioned in the loading platform; a vertical tube positioned in communication with the compaction rod aperture; a compaction rod positioned in the compaction rod aperture and extending through the compaction rod aperture, wherein the compaction rod comprises one or more reliefs having a powder volume; a drive motor in communication with the vertical tube and connected to the compaction rod to move the compaction rod through the compaction rod aperture; a first funnel-shaped device positioned below the loading platform, wherein the first funnel-shaped device comprises a first funnel aperture, wherein the first funnel aperture aligns with the compaction rod aperture to move the compaction rod through the compaction rod aperture and the first funnel aperture; an adaptor platform secured to the lower platform and aligned with the compaction rod aperture; an ammunition cartridge fixture slidably secured in the adaptor platform, wherein the ammunition cartridge fixture comprises a funnel-shaped opening, an interior cartridge shaped void, and a funnel aperture connecting the funnel-shaped opening to the interior cartridge shaped void, wherein the funnel aperture is aligned with the compaction rod aperture and the first funnel aperture to accommodate the compaction movement of the compaction rod; an ammunition cartridge positioned in the ammunition cartridge fixture; a powder reservoir positioned in communication with the first funnel-shaped device to transport powder to the first funnel-shaped device; a compaction controller in communication with the drive motor and one or more sensors to control the direction of the motor to control the direction of movement of the compaction rod and the force applied to the compaction rod to control the compaction of the powder; and a powder metering controller in communication with the gate and one or more second sensors to control the amount of powder delivered and he powder is despised.

The present invention includes a powder compaction device comprising a loading platform positioned above a lower platform; a compaction rod aperture positioned in the loading platform; a vertical tube positioned in communication with the compaction rod aperture; a compaction rod positioned in the compaction rod aperture and extending through the compaction rod aperture, wherein the compaction rod comprises one or more reliefs having a powder volume; a drive motor in communication with the vertical tube and connected to the compaction rod to move the compaction rod through the compaction rod aperture; a first funnel-shaped device positioned below the loading platform, wherein the first funnel-shaped device comprises a first funnel aperture, wherein the first funnel aperture aligns with the compaction rod aperture to move the compaction rod through the compaction rod aperture and the first funnel aperture; an adaptor platform secured to the lower platform and aligned with the compaction rod aperture; an ammunition cartridge fixture slidably secured in the adaptor platform, wherein the ammunition cartridge fixture comprises a funnel-shaped opening, an interior cartridge shaped void, and a funnel aperture connecting the funnel-shaped opening to the interior cartridge shaped void, wherein the funnel aperture is aligned with the compaction rod aperture and the first funnel aperture to accommodate the compaction movement of the compaction rod; an ammunition cartridge positioned in the ammunition cartridge fixture; a powder reservoir positioned in communication with the first funnel-shaped device to transport powder to the first funnel-shaped device; a compaction controller in communication with the drive motor and one or more sensors to control the direction of the motor to control the direction of movement of the compaction rod and the force applied to the compaction rod to control the compaction of the powder; and a powder metering controller in communication with the gate and one or more second sensors to control the amount of powder delivered and he powder is despised.

A bullet-seating die for precisely loading a bullet into a cartridge case is disclosed. In embodiments, the bullet die comprises: a die body; a bullet-nose-alignment stem configured to engage and center a front end of a bullet within the die body before and after bullet seating begins; a bullet-seating-depth-adjustment screw adjustable to control seating depth of the bullet in a cartridge case; a bullet-seating collet configured to surround an ogival portion of the bullet that will engage the rifling when the loaded cartridge is fired; a bullet-seating collet bushing configured to positively center the bullet-seating collet in the die body; a case-shoulder-alignment bushing configured to positively center a front end of the cartridge case, the bullet-nose-alignment stem, and the bullet-seating collet bushing along the axis of the die body during bullet seating; and a case-base-alignment bushing configured to positively center a base of the cartridge case in the case-shoulder-alignment bushing.