A method of manufacturing a metallic case of a pyrotechnical igniter having a wall with at least one weak zone and an inner surface in the case with at least one part facing this at least one weak zone includes positioning the case on a matrix having a plane zone. The method further includes striking the wall with at least one punch so as to, in a single movement of striking, deform at least the part of the inner surface facing this at least one weak zone and having at least one initially curved-in zone in order to bring it on the plane zone and to form in this manner a plane inner surface, and to form the at least one weak zone.

A downhole explosive detonation assembly with a high voltage electro-explosive initiator having an input high voltage power supply with a low impedance shunting fuse, a flexible electrical link and a capacitor discharge unit. The explosive detonation assembly is adapted to detonate detonating cord from the side.

A sacrificial outer sleeve of a self-eroding single-use gas-turbine-engine igniter contains a main pyrotechnic composition and an initiator embedded therein proximate to a distal portion of the sacrificial outer sleeve. The sacrificial outer sleeve extends within a combustion chamber of the gas-turbine engine when operatively coupled thereto so as to provide for igniting a fuel/air mixture therein. The sacrificial outer sleeve is constructed of a material that is consumable either responsive to combustion of the main pyrotechnic composition responsive to activation of the initiator responsive to an actuation signal communicated via an associated signal conduit, or, responsive to a subsequent operation of said gas-turbine engine to which the igniter is operatively coupled, when operatively coupled thereto.

The invention relates to an igniting unit (10), especially for an inflator, comprising an electric igniter (11) including a first inner cap (12) which forms a space (14) for being filled with a booster propellant charge with a second outer cap (13). In accordance with the invention, the second cap (13) is an electrically non-conductive insulating cap.

An initiator assembly that includes an exploding foil initiator, an input charge and a detonation detection switch. The exploding foil initiator has a base, a pair of bridge lands, a bridge element, and a plurality of non-metallic material layers. The bridge lands are coupled to the base. The bridge element is disposed between the bridge lands. The non-metallic material layers form a flyer layer and a barrel. The flyer layer is disposed over the bridge element. The barrel defines a barrel aperture and is disposed over the flyer layer such that the barrel aperture is disposed in-line with the bridge element. The input charge is formed of a secondary explosive, the input charge being disposed in-line with the barrel aperture. The detonation detection switch is mounted to the exploding foil initiator within an area defined by an outer perimeter of the base.

An initiator assembly with a housing, an exploding foil initiator, an input charge, which is formed of an energetic material, and a support plate. The exploding foil initiator has a base coupled to the housing, a bridge mounted to the base, a flyer overlying the bridge, and a barrel. The barrel is coupled to the base and defines a channel through which the flyer traverses when the exploding foil initiator is activated. The support plate supports an axial end of the input charge and is interposed in a path of travel of the flyer between the bridge and the input charge. A related method is also provided.

The invention relates to an ignition capsule for a gas generator of an occupant restraint system in a motor vehicle, in particular for the gas generator of an inflatable airbag, said ignition capsule comprising means for supporting extremely high pressures during ignition.

An igniter assembly includes: an igniter including a container made of metal and an ignition charge, the igniter being configured to emit a combustion product of the ignition charge to an outside of the container when a lid wall portion is ruptured when the igniter is operated, the container including a peripheral wall portion having a tubular shape and the lid wall portion configured to close one end portion of the peripheral wall portion, the ignition charge being filled in an accommodating space defined by the peripheral wall portion and the lid wall portion; and a tubular wall portion made of resin and formed in a tubular shape in a manner that the peripheral wall portion is surrounded, the tubular wall portion inwardly forming an emitting space in which the combustion product of the ignition charge is emitted. The lid wall portion includes an annular outer peripheral region portion connected to one end portion of the peripheral wall portion and a central region portion positioned inside the outer peripheral region portion in a radial direction compared to the outer peripheral region portion, and the outer peripheral region portion is formed thicker than the central region portion.

An initiator assembly having a base, first and second conductive elements, a first electrically insulating member and an energetic material. The first conductive element, which is configured to receive an electrical input, is coupled to the base and includes a tip. The first electrically insulating member is disposed over the tip. The second conductive element has a bridge that is disposed over the first electrically insulating member. The bridge is configured to vaporize in response to transmission of the electrical input from the tip of the first conductive element to the bridge. The energetic material is disposed over the bridge. Energy produced during vaporization of the bridge is transmitted to the energetic material to initiate at least one of a combustion event, a deflagration event and a detonation event in the energetic material. A method for operating an initiator assembly is also provided.

A downhole explosive detonation assembly with a high voltage electro-explosive initiator having an input high voltage power supply with a low impedance shunting fuse, a flexible electrical link and a capacitor discharge unit. The explosive detonation assembly is adapted to detonate detonating cord from the side.