A pistol may include a firing device arranged in a slide. The firing device includes a strikerhaving a striker head, characterized in that the device has at least two parallel striker springs arranged laterally on the side of the striker axis and bearing on at least two bearing surfaces arranged perpendicularly to the axis of the striker.

A pistol may include a firing device arranged in a slide. The firing device includes a strikerhaving a striker head, characterized in that the device has at least two parallel striker springs arranged laterally on the side of the striker axis and bearing on at least two bearing surfaces arranged perpendicularly to the axis of the striker.

The present invention relates to one or more rust-proof springs for use in a firearm assembly. The rust-proof springs involve a variety of metals combined to create an alloy that does not react with moisture to form rust. The alloy is formed into one or more mechanical coil springs, and the mechanical coil springs are heat treated to improve the structural strength of the springs. The advantage of the rust proof springs for use in the firearm assembly is that the firearms can be exposed to moisture, such as moisture from rain, and the firearm user would not have to worry about rust on the firearm springs later causing issues with the firearm working as intended. Additionally, the one or more springs have high heat resistance properties.

The present invention relates to one or more rust-proof springs for use in a firearm assembly. The rust-proof springs involve a variety of metals combined to create an alloy that does not react with moisture to form rust. The alloy is formed into one or more mechanical coil springs, and the mechanical coil springs are heat treated to improve the structural strength of the springs. The advantage of the rust proof springs for use in the firearm assembly is that the firearms can be exposed to moisture, such as moisture from rain, and the firearm user would not have to worry about rust on the firearm springs later causing issues with the firearm working as intended. Additionally, the one or more springs have high heat resistance properties.

An intrinsically safe firearm may include a handle and a frame connected by a pivot pin. One or more latches of the firearm can temporarily fix the firearm in a stowed orientation or a deployed orientation. In the deployed orientation, a magazine of the firearm can be removed from the handle; a slide of the firearm can be removed from the frame; a magazine safety allows a firing pin to strike a primer of a round in the firearm; and a trigger of the firearm is accessible to discharge the round in the firearm. In the stowed orientation, the magazine is not removable from the handle; the slide is not removable from the frame; the magazine safety prevents the firing pin from striking the primer; and the trigger of the firearm is not accessible.

An intrinsically safe firearm may include a handle and a frame connected by a pivot pin. One or more latches of the firearm can temporarily fix the firearm in a stowed orientation or a deployed orientation. In the deployed orientation, a magazine of the firearm can be removed from the handle; a slide of the firearm can be removed from the frame; a magazine safety allows a firing pin to strike a primer of a round in the firearm; and a trigger of the firearm is accessible to discharge the round in the firearm. In the stowed orientation, the magazine is not removable from the handle; the slide is not removable from the frame; the magazine safety prevents the firing pin from striking the primer; and the trigger of the firearm is not accessible.

A Handle and Firing Mechanism Assembly (H&FMA) provides a robust and streamlined H&FMA for a mortar weapon system. The H&FMA is easier to assemble and eliminates jamming issues, and firing pin protrusion adjustment procedures. It also incorporates a lighter trigger squeeze in Trigger fire mode and locks the firing pin in Drop fire mode. The handle is easier and more cost effective to produce. The H&FMA can be used with, for example, a 60 mm mortar weapon system.

A Handle and Firing Mechanism Assembly (H&FMA) provides a robust and streamlined H&FMA for a mortar weapon system. The H&FMA is easier to assemble and eliminates jamming issues, and firing pin protrusion adjustment procedures. It also incorporates a lighter trigger squeeze in Trigger fire mode and locks the firing pin in Drop fire mode. The handle is easier and more cost effective to produce. The H&FMA can be used with, for example, a 60 mm mortar weapon system.

An intrinsically safe firearm may include a handle and a frame connected by a pivot pin. One or more latches of the firearm can temporarily fix the firearm in a stowed orientation or a deployed orientation. In the deployed orientation, a magazine of the firearm can be removed from the handle; a slide of the firearm can be removed from the frame; a magazine safety allows a firing pin to strike a primer of a round in the firearm; and a trigger of the firearm is accessible to discharge the round in the firearm. In the stowed orientation, the magazine is not removable from the handle; the slide is not removable from the frame; the magazine safety prevents the firing pin from striking the primer; and the trigger of the firearm is not accessible.

A pistol may include a firing device arranged in a slide. The firing device includes a strikerhaving a striker head, characterized in that the device has at least two parallel striker springs arranged laterally on the side of the striker axis and bearing on at least two bearing surfaces arranged perpendicularly to the axis of the striker.