A firearm positioning system and methods of use are provided. The system comprises a first arm segment pivotably engaged to a primary body and a second arm segment pivotably engaged to the first arm segment. The system also comprises a cradle pivotably engaged to the second arm segment. The cradle is configured to support a firearm. The cradle comprises a pair of channels at a first end and a backstop assembly at a second end opposite the first end. The pair of channels are configured to receive a front end of a firearm and the backstop assembly is configured to releasably secure a back end of the firearm to the cradle.

A magazine for storing ammunition bodies having a plurality of adjacently arranged storage spaces, wherein a retaining apparatus for retaining an ammunition body is allocated of each of the storage spaces and wherein a convey device is provided for conveying an ammunition body from a retaining apparatus to an adjacent retaining apparatus. The disclosure furthermore relates to a method for storing ammunition bodies in a magazine.

A magazine for storing ammunition bodies having a plurality of adjacently arranged storage spaces, wherein a retaining apparatus for retaining an ammunition body is allocated of each of the storage spaces and wherein a convey device is provided for conveying an ammunition body from a retaining apparatus to an adjacent retaining apparatus. The disclosure furthermore relates to a method for storing ammunition bodies in a magazine.

A holding device for munition bodies, having two holding shells which are movable relative to one another and which form a holding region in which a munition body can be held, wherein the holding shells are rotatable about a common axis of rotation, wherein the axis of rotation of the holding shells runs through the holding region. Moreover, the disclosure relates to a magazine having a holding device, to a projectile lift having a holding device, and to a method for holding munition bodies

A separate sheet setting forth the replacement Abstract is provided herewith.

A holding device for munition bodies, having two holding shells which are movable relative to one another and which form a holding region in which a munition body can be held, wherein the holding shells are rotatable about a common axis of rotation, wherein the axis of rotation of the holding shells runs through the holding region. Moreover, the disclosure relates to a magazine having a holding device, to a projectile lift having a holding device, and to a method for holding munition bodies

A separate sheet setting forth the replacement Abstract is provided herewith.

A one hand firearm magazine loader for loading a firearm with a firearm magazine including a lower member includes a magazine support housing that terminates in a lower end in a receiving section; a firearm magazine support extending from the magazine support housing to retain the firearm magazine in a substantially vertical position; a rotating support rotatably received in the receiving section for rotation about a first axis between the substantially vertical position and an angled position; and a magazine receiving member carried by the rotating support, the magazine receiving member receiving the lower member of the firearm magazine, wherein the magazine receiving member is rotatably mounted to the rotating support for rotation about a second axis, substantially perpendicular to the first axis, of the firearm magazine with mounted firearm.

A carrier for storing an object is provided. The carrier includes four walls that define an interior cavity, a top-closure operative to selectively restrict access to the interior cavity, and a break-away seal. The top-closure is defined by a top panel, a center panel, a bottom panel, and two side panels. The bottom panel is fastened to the center panel so as to define two spaces between the bottom panel and the center panel. The break-away seal is operative to secure the top-closure when the top panel, center panel, bottom panel, and side panels are folded over the interior cavity with the side panels in the spaces defined by the center panel and the bottom panel.

A munitions rack includes a munitions rack structure that houses multiple compact ejectors. The structure includes a pair of internal longitudinal ribs, inboard of a pair of external longitudinal ribs. A spine of the munitions rack structure links all the ribs, and the munitions rack structure may be formed out of a single piece of material. The ribs define a pair of side recesses on the port and starboard sides of the bomb, which each may be further subdivided into a forward pocket and an aft pocket. Removable ejectors are located in the pockets. The ejectors may receive pressurized gas from pressurized gas source(s) located outside of the ejectors. The ejectors may each have multiple forward pistons and multiple aft pistons. The ejectors may include pitch control valving to control the relative amounts of pressurized gas sent to the forward piston(s) and aft piston(s).

A munitions rack includes a munitions rack structure that houses multiple compact ejectors. The structure includes a pair of internal longitudinal ribs, inboard of a pair of external longitudinal ribs. A spine of the munitions rack structure links all the ribs, and the munitions rack structure may be formed out of a single piece of material. The ribs define a pair of side recesses on the port and starboard sides of the bomb, which each may be further subdivided into a forward pocket and an aft pocket. Removable ejectors are located in the pockets. The ejectors may receive pressurized gas from pressurized gas source(s) located outside of the ejectors. The ejectors may each have multiple forward pistons and multiple aft pistons. The ejectors may include pitch control valving to control the relative amounts of pressurized gas sent to the forward piston(s) and aft piston(s).

A holding device for munition bodies, having two holding shells which are movable relative to one another and which form a holding region in which a munition body can be held, wherein the holding shells are rotatable about a common axis of rotation, wherein the axis of rotation of the holding shells runs through the holding region. Moreover, the disclosure relates to a magazine having a holding device, to a projectile lift having a holding device, and to a method for holding munition bodies.