Ammunition and explosives – Igniting devices and systems – Electrical primer or ignitor
Reexamination Certificate
2000-02-17
2001-09-18
Jordan, Charles T. (Department: 3641)
Ammunition and explosives
Igniting devices and systems
Electrical primer or ignitor
C102S202700, C102S202900, C102S202140
Reexamination Certificate
active
06289813
ABSTRACT:
The present invention relates to the field of electropyrotechnic igniters intended for motor-vehicle safety and especially to that of igniters intended for initiating seat-belt retractors or pyrotechnic gas generators for airbags. The invention relates more particularly to igniters whose heating system is formed by a thin-film resistive bridge connected to two conducting metal areas.
Conventionally, electropyrotechnic igniters intended for motor-vehicle safety are formed by an insulating body which is extended by a fragmentable metal body and through which two electrodes pass. The electrodes are connected together by a resistive heating filament surrounded by an explosive initiating composition, for example a composition based on lead trinitroresorcinate. Such igniters, which are described for example in U.S. Pat. Nos. 3,572,247; 4,517,895; 4,959,011; and 5,099,762, have the drawback, however, of being sensitive to the vibrations of the motor vehicle at the soldered joints between the resistive filament and the electrodes. These soldered joints when repeatedly stressed by the vibrations of the vehicle can break the igniter and make it inoperable.
In order to remedy this drawback, igniters have therefore been developed in which the electrodes are in contact with two separate conducting metal areas extending over the surface of the insulating body which is inside the metal cap. These two areas are connected together by a thin flat resistive strip deposited on the surface of the insulating body. The conducting areas and the resistive strip are covered with an explosive initiating composition. Such igniters, which are described for example in U.S. Pat. Nos. 5,554,585, 4,690,056 and 5,732,634, are no longer sensitive to the vibrations of the motor vehicle.
Moreover, electropyrotechnic igniters are characterized by two values: the “all-fire” current and the “no-fire” current.
The “all-fire” current corresponds to the limiting strength of an electric current above which it is certain that all the igniters of one batch will operate.
The “all-fire” currents demanded by motor-vehicle manufacturers are at the present time 800 mA or 1200 mA.
The “no-fire” current corresponds to the limiting strength of an electric current below which it is certain that no igniter of a batch will operate. The “no-fire” currents demanded by motor-vehicle manufacturers are at the present time 200 mA or 250 mA.
However, motor-vehicle manufacturers are increasingly desirous of being able to have electropyrotechnic igniters guaranteeing a no-fire current of at least 400 mA with an all-fire current close to 1200 mA. Although drilling detonators are found which satisfy one or other of these conditions, like those described, for example, in Application WO 98/39615, at the present time there are no electropyrotechnic igniters which satisfy both the abovementioned conditions at the same time and which are compatible with the operating times required by motor-vehicle safety.
The object of the present invention is specifically to provide such a pyrotechnic igniter.
The invention therefore relates to an electropyrotechnic igniter comprising, inside a metal container which is closed and held by an overmoulding compound, an initiation head consisting of a gas-tight wall having an upper face and consisting of a solid body, the axial part of which is composed of a glass cylinder through which two electrodes in the form of pins pass, one of the said electrodes being electrically connected to the solid body directly by a soldered joint or by means of a metal contact, the said electrodes having one end extending beyond the said upper face of the said gas-tight wall, this extension allowing them to be electrically connected to a flat printed circuit carried by a substrate, the said electrodes passing through the said substrate itself, the said igniter also including a flat resistive heating element placed on the said insulating substrate and connected to the said electrodes via two separate conducting metal areas extending over the said substrate, each area being in contact with one of the two electrodes, the said flat element and the said metal areas being covered with a pyrotechnic initiating composition, characterized in that:
(i) the said flat element has a thickness of less than or equal to 0.001 mm and is composed of a metal compound whose volume resistivity is between 0.5×10
6
&OHgr;m and 2×10
6
&OHgr;m;
(ii) the said pyrotechnic initiating composition is composed of a lacquer made from a polyvinyl binder and of a primary explosive;
(iii) a varistor, composed of an assembly of thin layers, is attached to the said conducting metal areas.
The invention relates more particularly to an electropyrotechnic igniter as defined above and comprising a cylindrical igniter body which has two plane faces and through which two electrodes pass, the said electrodes being able to be connected to a source of electric current, the said igniter body being surmounted by a fragmentable cap containing an ignition charge, the said cap and the said igniter body being held firmly together by an overmoulding compound, the plane face of the igniter body, lying inside the said cap, being covered with an insulating printed-circuit substrate, the said electrodes passing through the said substrate itself, the said igniter also including a flat resistive heating element deposited on the said insulating substrate and connected to the said electrodes via two separate conducting metal areas extending over the said substrate, each area being in contact with one of the two electrodes, and the said flat element and the said metal areas being covered with a pyrotechnic initiating composition, characterized in that:
(i) the said flat element has a thickness of less than or equal to 0.001 mm and is composed of a metal compound whose volume resistivity is between 0.5×10
6
&OHgr;m and 2×10
6
&OHgr;m;
(ii) the said pyrotechnic initiating composition is composed of a lacquer made from a polyvinyl binder and of a primary explosive;
(iii) a varistor, composed of an assembly of thin layers, is attached to the said conducting metal areas.
Compared with igniters operating with a thin-film bridge, the igniter according to the invention has three novel characteristics:
the thin-film resistive bridge has a very high volume resistivity;
the initiating composition makes use of a primary explosive which excludes any oxidation-reduction mixture as is frequently the case;
the varistor is deposited on the conducting metal areas inside the ignition head and is not placed inside the igniter body, as described for example in Patents EP 0,802,092 and U.S. Pat. No. 5,616,881.
The primary explosive used for making the initiating composition may be a conventional explosive, such as lead trinitroresorcinate, but, according to a first preferred embodiment of the invention, it will advantageously be composed of an alkali-metal salt of dinitrobenzofuroxan, and especially of rubidium dinitrobenzofuroxane. In this case, the binder will advantageously be polyvinyl chloride acetate.
According to a second preferred embodiment of the invention, the metal compound forming the flat resistive heating element is chosen from the group formed by bismuth, tantalum nitride, alloys based on iron and copper, and binary and terniary alloys based on nickel, chromium and phosphorus.
Advantageously, the varistor will have a jump-start voltage of between 5.5 and 17 volts for a peak current of greater than 100 amps (time: 8 to 20 microseconds).
The igniters according to the invention thus make it possible, by suitable sizing of their components, to reliably guarantee a no-fire current value of greater than 500 mA and an all-fire current value of less than or equal to 1200 mA.
These igniters, which have a high level of ignition reliability, find a preferred application in the pyrotechnic gas generators intended for activating safety devices for the occupants of a motor vehicle, such as airbags or seat-belt retractors.
REFERENCES:
patent: 3366055 (1968-01-01), Hollander, Jr.
patent:
Duguet Jean-Rene
Martin Nicolas
Chambers Troy
Jordan Charles T.
Livbag SNC
Pillsbury & Winthrop LLP
LandOfFree
Electropyrotechnic igniter with enhanced ignition reliability does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Electropyrotechnic igniter with enhanced ignition reliability, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Electropyrotechnic igniter with enhanced ignition reliability will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2462040