A pyrotechnic gas generator for driving an actuator includes a body defining a combustion chamber housing a main pyrotechnic charge, and an ignitor for initiating combustion of the main pyrotechnic charge. The pyrotechnic gas generator includes at least one delay chamber adapted to communicate with
A pyrotechnic gas generator for driving an actuator includes a body defining a combustion chamber housing a main pyrotechnic charge, and an ignitor for initiating combustion of the main pyrotechnic charge. The pyrotechnic gas generator includes at least one delay chamber adapted to communicate with the combustion chamber via at least one inlet orifice, and the delay chamber is provided with at least one outlet orifice for passing gas out from the gas generator. The at least one outlet orifice is provided with a seal adapted to pass from a closed state to an open state when the pressure inside the delay chamber reaches a rupture limit pressure.
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1. A pyrotechnic gas generator for driving an actuator, the pyrotechnic gas generator comprising: a body defining a combustion chamber housing a main pyrotechnic charge;an ignitor for initiating combustion of said main pyrotechnic charge; andat least one delay chamber housing no pyrotechnic charge t
1. A pyrotechnic gas generator for driving an actuator, the pyrotechnic gas generator comprising: a body defining a combustion chamber housing a main pyrotechnic charge;an ignitor for initiating combustion of said main pyrotechnic charge; andat least one delay chamber housing no pyrotechnic charge that is defined by walls that are stationary relative to one another and that is adapted to communicate with said combustion chamber via at least one inlet orifice,wherein said at least one delay chamber is provided with at least one outlet orifice for passing gas out from said pyrotechnic gas generator, said at least one outlet orifice being provided with a seal adapted to pass from a closed state to an open state when a pressure inside the at least one delay chamber reaches a rupture limit pressure, andwherein the main pyrotechnic charge is spaced apart from a wall of the combustion chamber by centering rods co-operating with axial slots formed in a periphery of the main pyrotechnic charge. 2. The pyrotechnic gas generator according to claim 1, wherein the body is elongate in a main direction, the combustion chamber and the at least one delay chamber being arranged one after another inside said body in said main direction. 3. The pyrotechnic gas generator according to claim 2, wherein the at least one delay chamber is defined in the main direction by an upstream wall and by a downstream wall, the at least one inlet orifice being arranged in said upstream wall and the at least one outlet orifice being arranged in said downstream wall. 4. The pyrotechnic gas generator according to claim 1, wherein the body is cylindrical. 5. The pyrotechnic gas generator according to claim 1, wherein the main pyrotechnic charge is arranged inside the combustion chamber in such a manner as to define a gas-passing passage radially between the wall of the combustion chamber and said main pyrotechnic charge. 6. The pyrotechnic gas generator according to claim 1, wherein the main pyrotechnic charge presents a shape that is substantially cylindrical, being defined by first and second end faces and a side surface extending between said end faces, the first end face being covered in a combustion-inhibiting protective coating, the second end face being free of the combustion-inhibiting protective coating, and the side surface being covered in a combustion-inhibiting coating over a portion of its length from said first end face and being free of the combustion-inhibiting protective coating over a remainder of its length. 7. The pyrotechnic gas generator according to claim 1, wherein the main pyrotechnic charge is of a shape that is substantially cylindrical, being defined by first and second end faces and a side surface extending between said end faces, the first end face and its entire side surface being covered in a combustion-inhibiting protective coating, while the second end face is free of the combustion-inhibiting protective coating. 8. The pyrotechnic gas generator according to claim 1, wherein a free volume of the at least one delay chamber is greater than four times a free volume of the combustion chamber. 9. The pyrotechnic gas generator according to claim 1, wherein the at least one inlet orifice of the at least one delay chamber is provided with a seal suitable for passing from a closed state to an open state when a gas pressure inside the combustion chamber reaches a second rupture limit pressure. 10. The pyrotechnic gas generator according to claim 1, wherein the ignitor comprises a pyrotechnic initiator. 11. The pyrotechnic gas generator according to claim 10, wherein the ignitor comprises a mechanical trigger to trigger the pyrotechnic initiator. 12. The pyrotechnic gas generator according to claim 10, wherein the ignitor comprises an electrical trigger to trigger the pyrotechnic initiator. 13. The pyrotechnic gas generator according to claim 10, wherein the ignitor further comprises an ignition relay. 14. The pyrotechnic gas generator according to claim 13, further comprising an ignition chamber adapted to communicate with the combustion chamber via at least one inlet orifice of the combustion chamber, the pyrotechnic initiator and the ignition relay being housed in said ignition chamber. 15. An assembly comprising: an actuator having an actuator cylinder housing a movable assembly comprising a piston and a rod projecting from one end of said actuator cylinder, and a pyrotechnic gas generator according to claim 1, wherein the at least one delay chamber of the pyrotechnic gas generator is arranged relative to the piston of the actuator in such a manner that a pressure of the gas escaping via the at least one outlet orifice applies a force against the piston. 16. An assembly according to claim 15, wherein an actuation chamber is defined between the at least one delay chamber and the piston, the at least one delay chamber communicating with said actuation chamber via the at least one outlet orifice. 17. The pyrotechnic gas generator according to claim 1, wherein a free volume of the at least one delay chamber is greater than 20 times a free volume of the combustion chamber. 18. The pyrotechnic gas generator according to claim 1, wherein a portion of a surface of the main pyrotechnic charge is covered in a combustion-inhibiting protective coating. 19. The pyrotechnic gas generator according to claim 1, wherein the main pyrotechnic charge is spaced apart from the wall of the combustion chamber by three of the centering rods co-operating with three of the axial slots formed in an outer face of the main pyrotechnic charge.
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이 특허에 인용된 특허 (10)
Frehaut Jean-Pierre (Versailles FRX) Wisshaupt Daniel (Orleans La Source FRX), Damped-action pyrotechnic actuator.
Patton, Yvonnig; Peremarty, François; Cox, Matthew Alan; Lelievre, Xavier, Gas generator having a storage chamber for material with endothermic change of state.
Dunaway, James D.; Garbe, Duane J.; Sampson, William P.; Hatch, Robert L., Gas generators, launch tubes including gas generators and related systems and methods.
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