In some embodiments, an aircraft includes a flying frame having an airframe, a propulsion system attached to the airframe and a flight control system operably associated with the propulsion system wherein, the flying frame has a vertical takeoff and landing mode and a forward flight mode. A pod assembly is selectively attachable to the flying frame such that the flying frame is rotatable about the pod assembly wherein, the pod assembly remains in a generally horizontal attitude during vertical takeoff and landing, forward flight and transitions therebetween.

A device for releasing a panel of an aircraft, the device being configured to be secured to a support, the support having an opening and the device being attached to cover a periphery of the opening, the device comprising a panel configured to be arranged at least opposite the opening. Such a device comprises: at least two ejector members, each of the at least two ejector members comprising at least one link; and at least one control member for applying a pulling force to the at least one link.

A device for releasing a panel of an aircraft, the device being configured to be secured to a support, the support having an opening and the device being attached to cover a periphery of the opening, the device comprising a panel configured to be arranged at least opposite the opening. Such a device comprises: at least two ejector members, each of the at least two ejector members comprising at least one link; and at least one control member for applying a pulling force to the at least one link.

An arrangement provided with a partition at least partially delimiting an emergency exit, the arrangement having a movable panel that closes the emergency exit in an inactive operating mode, the arrangement comprising an evacuation system provided with a lifeline. The lifeline comprises a deployment section passing through a passage in the partition and secured to a handle, the panel together with the partition delimiting a recess in which the handle is arranged in the inactive operating mode.

A passenger door rapid emergency egress (PDREE) system that can be used on airplanes, such as the Cessna 206, allows the forward cargo door to be safely jettisoned allowing unrestricted egress for occupants in the rear of the aircraft. Unlike the manufacturer's design, the (PDREE) system is designed to work when the landing flaps are down. Extended flaps interfere with the exit door. Mechanical levers in the PDREE system are designed to function even if used improperly. The PDREE system opens and allows the passenger door to be jettisoned when the door is closed, or closed and locked, and binding loads are placed on the hinges. This is accomplished through the use of robust, non-corrosive, stainless steel mechanical levers and pins. A separate, red emergency handle safely stowed to prevent accidental activation, is easily accessible in the back of the aircraft.

A passenger door rapid emergency egress (PDREE) system that can be used on airplanes, such as the Cessna 206, allows the forward cargo door to be safely jettisoned allowing unrestricted egress for occupants in the rear of the aircraft. Unlike the manufacturer's design, the (PDREE) system is designed to work when the landing flaps are down. Extended flaps interfere with the exit door. Mechanical levers in the PDREE system are designed to function even if used improperly. The PDREE system opens and allows the passenger door to be jettisoned when the door is closed, or closed and locked, and binding loads are placed on the hinges. This is accomplished through the use of robust, non-corrosive, stainless steel mechanical levers and pins. A separate, red emergency handle safely stowed to prevent accidental activation, is easily accessible in the back of the aircraft.

An aircraft with a fuselage and at least one emergency exit system, the at least one emergency exit system including a jettisonable component that is accommodated and locked in an associated frame structure of the aircraft in normal operation mode to form a portion of the fuselage and that is releasable from the associated frame structure for being jettisoned from the aircraft in an emergency mode; and further including an emergency evacuation assistance device that is adapted to assist in an emergency evacuation of the aircraft via the associated frame structure in the emergency mode; wherein the emergency evacuation assistance device is attached to the jettisonable component such that the emergency evacuation assistance device is deployed by means of the jettisonable component when the jettisonable component is jettisoned from the aircraft in the emergency mode.

An aircraft with a fuselage and at least one emergency exit system, the at least one emergency exit system including a jettisonable component that is accommodated and locked in an associated frame structure of the aircraft in normal operation mode to form a portion of the fuselage and that is releasable from the associated frame structure for being jettisoned from the aircraft in an emergency mode; and further including an emergency evacuation assistance device that is adapted to assist in an emergency evacuation of the aircraft via the associated frame structure in the emergency mode; wherein the emergency evacuation assistance device is attached to the jettisonable component such that the emergency evacuation assistance device is deployed by means of the jettisonable component when the jettisonable component is jettisoned from the aircraft in the emergency mode.

A canopy for an aircraft includes a pivot assembly including a first hinge and a second hinge opposite from the first hinge. The first hinge includes a first pivot slot having a first length. The first pivot slot is configured to retain a first aft pin of a fuselage of the aircraft. The second hinge includes a second pivot slot having a second length. The second pivot slot is configured to retain a second aft pin of the fuselage of the aircraft. The first length differs from the second length.

A canopy for an aircraft includes a pivot assembly including a first hinge and a second hinge opposite from the first hinge. The first hinge includes a first pivot slot having a first length. The first pivot slot is configured to retain a first aft pin of a fuselage of the aircraft. The second hinge includes a second pivot slot having a second length. The second pivot slot is configured to retain a second aft pin of the fuselage of the aircraft. The first length differs from the second length.