A flexible cover comprising at least one, so-called composite, layer, formed from a composite material consisting of at least one fabric and at least one elastomer and a flat metal blade secured to the composite layer by elastomer and comprising pre-cut lines for fragilisation of the flexible cover, the pre-cut lines being arranged so as to create areas in the form of petals, the composite layer and the metal blade being designed so as to return to an initial position once the flexible cover has been opened.

A flexible cover comprising at least one, so-called composite, layer, formed from a composite material consisting of at least one fabric and at least one elastomer and a flat metal blade secured to the composite layer by elastomer and comprising pre-cut lines for fragilisation of the flexible cover, the pre-cut lines being arranged so as to create areas in the form of petals, the composite layer and the metal blade being designed so as to return to an initial position once the flexible cover has been opened.

A cover for an effector, such as a projectile, missile, or gun-launched effector, includes two parts that are translatable relative to one another, such that the cover separates in stages as the effector launches. The cover includes an outer cover portion that is made up of multiple outer cover segments that together define a central opening through which part of an inner cover portion extends. In a launch of the effector, the effector first makes contact with the inner cover portion. This pushes the inner cover portion forward, breaking the attachment with the outer cover portion, and allowing the inner cover portion to translated forward relative to the outer cover portion. As the inner cover portion translates forward relative to the outer cover portion, the inner cover portion eventually makes contact with the outer cover portion, with both being pushed forward, and separating from the launcher.

A cover for an effector, such as a projectile, missile, or gun-launched effector, includes two parts that are translatable relative to one another, such that the cover separates in stages as the effector launches. The cover includes an outer cover portion that is made up of multiple outer cover segments that together define a central opening through which part of an inner cover portion extends. In a launch of the effector, the effector first makes contact with the inner cover portion. This pushes the inner cover portion forward, breaking the attachment with the outer cover portion, and allowing the inner cover portion to translated forward relative to the outer cover portion. As the inner cover portion translates forward relative to the outer cover portion, the inner cover portion eventually makes contact with the outer cover portion, with both being pushed forward, and separating from the launcher.

A projectile launcher includes: a storage and launching tube suitable for receiving a projectile; a breech sealing one end of the tube; a thruster arranged in the tube between the breech and the projectile, comprising a pressurized gas reserve and suitable for applying an ejection force to a projectile; a plug blocking the other end of the tube, having a locked configuration, in which the plug engages the internal wall of the tube so as to close the tube and to keep the projectile in the tube, and an unlocked configuration, in which the plug is free relative to the tube; and a trigger having a retracted resting configuration and a deployed configuration, suitable for triggering, causing the plug to pass from the locked configuration to the unlocked configuration; wherein the trigger is pneumatic and is supplied with pressure by the reserve.

A dual purpose missile storage and launch tube device includes a tubular housing and a front cover removably covering a first end of the tubular housing, the first end defining an opening for firing a missile. A rear cover assembly removably covers a second end of the tubular housing opposite the first end. A safety mechanism is attached to the tubular housing and includes a sliding member extending through a longitudinal passageway formed in the safety mechanism. A forward portion of the sliding member engages the front cover. A rearward portion of the sliding member engages a fastener locking the rear cover assembly onto the tubular housing. The rearward portion of the sliding member is disengaged from the fastener when the front cover is removed from the first end of the tubular housing for unlocking the rear cover assembly from the tubular housing.

A dual purpose missile storage and launch tube device includes a tubular housing and a front cover removably covering a first end of the tubular housing, the first end defining an opening for firing a missile. A rear cover assembly removably covers a second end of the tubular housing opposite the first end. A safety mechanism is attached to the tubular housing and includes a sliding member extending through a longitudinal passageway formed in the safety mechanism. A forward portion of the sliding member engages the front cover. A rearward portion of the sliding member engages a fastener locking the rear cover assembly onto the tubular housing. The rearward portion of the sliding member is disengaged from the fastener when the front cover is removed from the first end of the tubular housing for unlocking the rear cover assembly from the tubular housing.

A dual purpose missile storage and launch tube device includes a tubular housing and a front cover removably covering a first end of the tubular housing, the first end defining an opening for firing a missile. A rear cover assembly removably covers a second end of the tubular housing opposite the first end. A safety mechanism is attached to the tubular housing and includes a sliding member extending through a longitudinal passageway formed in the safety mechanism. A forward portion of the sliding member engages the front cover. A rearward portion of the sliding member engages a fastener locking the rear cover assembly onto the tubular housing. The rearward portion of the sliding member is disengaged from the fastener when the front cover is removed from the first end of the tubular housing for unlocking the rear cover assembly from the tubular housing.

A dual purpose missile storage and launch tube device includes a tubular housing and a front cover removably covering a first end of the tubular housing, the first end defining an opening for firing a missile. A rear cover assembly removably covers a second end of the tubular housing opposite the first end. A safety mechanism is attached to the tubular housing and includes a sliding member extending through a longitudinal passageway formed in the safety mechanism. A forward portion of the sliding member engages the front cover. A rearward portion of the sliding member engages a fastener locking the rear cover assembly onto the tubular housing. The rearward portion of the sliding member is disengaged from the fastener when the front cover is removed from the first end of the tubular housing for unlocking the rear cover assembly from the tubular housing.

A payload launch system includes a launch tube, payload, rocket tube, pressurized motor assembly, and control system. The motor assembly has a launch actuator and an accumulator housing containing compressed gas. The accumulator housing defines a vent opening having a closure. The control system transmits an actuation signal to the actuator in response to a launch request signal to open the closure and cause a discharge of pressure into the launch tube. This causes the rocket tube to launch from the launch tube to a threshold altitude in a single gaseous thrust phase. A method includes deploying a launch system, transmitting a launch actuation signal to the launch actuator via a control system, and opening a closure to allow compressed gas to enter the launch tube, thereby launching the rocket tube from the launch tube to a threshold altitude in the single gaseous thrust phase.