Fuze assembly methods and devices. The methods include providing a firing pin to detonate the projectile; operably connecting a weighted body to the firing pin; and operably connecting a flexural portion to the weighted body to retain position of the weighted body due to centrifugal force generated by the rotation of the projectile to retain the firing pin in a detonation prevention position and move the weighted body to drive the firing pin to a detonation position upon impact of the projectile.

A rocker arm detonator is provided that includes a detonator head, which includes a pivotably arranged firing pin which is acted upon by a firing pin spring, and has a safety clip, which is pivotably disposed in the same direction of rotation as the firing pin from a starting position, in which it is pressed in the direction of the detonator head to a firing pin release position. To reliably avoid an unintentional detonation of the rocker arm detonator prior to its proper use, when the rocker arm detonator is not in use, the firing pin spring is in its untensioned state and may be tensioned by a separate tensioning lever as soon as the rocker arm detonator is to be properly deployed.

Fuze assembly systems, devices, and methods. The fuze assembly includes a baseplate; a first gear operably connected to the baseplate and rotatable about a fixed axis between a safety position and an armed position; and a retention device configured to retain the first gear in the safety position and enable rotation of the first gear while being subject to a centrifugal force above a first threshold from rotation of the assembly. The fuze assembly further includes a second gear in operable contact with the first gear and configured to move along a path of the baseplate due to the centrifugal force to rotate the first gear from the safety position to the armed position.

Fuze assembly systems, devices, and methods. The fuze assembly includes a baseplate; a first gear operably connected to the baseplate and rotatable about a fixed axis between a safety position and an armed position; and a retention device configured to retain the first gear in the safety position and enable rotation of the first gear while being subject to a centrifugal force above a first threshold from rotation of the assembly. The fuze assembly further includes a second gear in operable contact with the first gear and configured to move along a path of the baseplate due to the centrifugal force to rotate the first gear from the safety position to the armed position.

Fuze assembly methods and devices. The methods include providing a firing pin to detonate the projectile; operably connecting a weighted body to the firing pin; and operably connecting a flexural portion to the weighted body to retain position of the weighted body due to centrifugal force generated by the rotation of the projectile to retain the firing pin in a detonation prevention position and move the weighted body to drive the firing pin to a detonation position upon impact of the projectile.

Fuze assembly systems, devices, and methods. The fuze assembly includes a baseplate; a first gear operably connected to the baseplate and rotatable about a fixed axis between a safety position and an armed position; and a retention device configured to retain the first gear in the safety position and enable rotation of the first gear while being subject to a centrifugal force above a first threshold from rotation of the assembly. The fuze assembly further includes a second gear in operable contact with the first gear and configured to move along a path of the baseplate due to the centrifugal force to rotate the first gear from the safety position to the armed position.

Fuze assembly systems, devices, and methods. The fuze assembly includes a baseplate; a first gear operably connected to the baseplate and rotatable about a fixed axis between a safety position and an armed position; and a retention device configured to retain the first gear in the safety position and enable rotation of the first gear while being subject to a centrifugal force above a first threshold from rotation of the assembly. The fuze assembly further includes a second gear in operable contact with the first gear and configured to move along a path of the baseplate due to the centrifugal force to rotate the first gear from the safety position to the armed position.

An apparatus actuatable under a rotary acceleration having a predetermined duration and magnitude. The apparatus including: a body having a first channel and a second channel, the second channel being disposed radially offset from the first channel; a mass disposed in the first channel, the mass having an arm disposed at a first end of the mass and the arm being rotatable from a first position in which the arm cannot move within the second channel to a second position in which the arm can move inside the second channel; a first biasing spring member having a first end connected to the body and a second end connected to the arm such that when the arm is subjected to the rotary acceleration greater than the predetermined duration and magnitude, the arm is biased to rotate from the first position to the second position; wherein the mass is connected to the arm such that the mass moves in the first channel and the arm moves in the second channel when the arm is biased into the second position.

An apparatus actuatable under a rotary acceleration having a predetermined duration and magnitude. The apparatus including: a body having a first channel and a second channel, the second channel being disposed radially offset from the first channel; a mass disposed in the first channel, the mass having an arm disposed at a first end of the mass and the arm being rotatable from a first position in which the arm cannot move within the second channel to a second position in which the arm can move inside the second channel; a first biasing spring member having a first end connected to the body and a second end connected to the arm such that when the arm is subjected to the rotary acceleration greater than the predetermined duration and magnitude, the arm is biased to rotate from the first position to the second position; wherein the mass is connected to the arm such that the mass moves in the first channel and the arm moves in the second channel when the arm is biased into the second position.

An apparatus actuatable under a rotary acceleration having a predetermined duration and magnitude. The apparatus including: a body having a first channel and a second channel, the second channel being disposed radially offset from the first channel; a mass disposed in the first channel, the mass having an arm disposed at a first end of the mass and the arm being rotatable from a first position in which the arm cannot move within the second channel to a second position in which the arm can move inside the second channel; a first biasing spring member having a first end connected to the body and a second end connected to the arm such that when the arm is subjected to the rotary acceleration greater than the predetermined duration and magnitude, the arm is biased to rotate from the first position to the second position; wherein the mass is connected to the arm such that the mass moves in the first channel and the arm moves in the second channel when the arm is biased into the second position.