Ammunition and explosives – Igniting devices and systems – Laser or light initiated
Reexamination Certificate
2001-04-13
2002-12-31
Nelson, Peter A. (Department: 3641)
Ammunition and explosives
Igniting devices and systems
Laser or light initiated
C102S202120
Reexamination Certificate
active
06499404
ABSTRACT:
The invention relates to an ignition element having a laser light source corresponding to the preamble of the first claim.
Ignition elements are known in which the explosive which triggers the primer detonation is ignited by means of a laser light source. The laser light source is arranged outside the space which contains the explosive. The laser light is routed to the explosive of the primer detonation either by way of a light guide or by way of a through channel. As a rule, a laser optical system is required in order to couple the laser light into the through channel, in order to focus the laser light onto the explosive with the intensity required for ignition. The explosion of the primer ignites the charge of a detonation body, for example a bullet. The detonation body can, however, also contain a charge with an explosive, for the ignition of which the energy of the laser light is already sufficient, so that a primer detonation is not required.
Two versions of an ignition element are known from U.S. Pat. No. 3,362,329. With the first version, the laser light is supplied by means of a light guide from the laser light source to the explosive of the ignition element. In this connection, a coupled optical system is connected between the light guide and the explosive of the ignition element. According to the second version, the laser light source is arranged in such a way that the laser light is routed onto the explosive of the ignition element through an opening in a shield, which separates the laser light source from the explosive of the ignition element, and an insulating tube connected thereto containing the filtering and amplifying optical system. The known ignition elements have the disadvantage that the light guide, with its coupled optical system or the filtering and amplifying optical system to be connected upstream of the laser light source are costly in construction terms. Apart from this, transmission losses and coupling losses occur when laser light is transmitted by means of optical devices or light guides.
The object of the present invention is to provide an ignition element having a laser light source which is comparatively simple and cheap to produce and does not have the disadvantages mentioned above.
The object is achieved with the aid of the characterising features of the first claim. Advantageous developments of the invention are claimed in the subclaims.
As a result of the continuing miniaturisation and cost-favourable production of electronic components, it is possible to produce laser light sources in such a size, and thereby nevertheless having such a radiant intensity, that, in accordance with the invention, they can ignite explosives without a light guide or filtering and amplifying optical system. The laser light source is a laser diode which is still only intended for a single use. In this connection, the explosive to be ignited can rest directly on the portion of the housing of the laser diode that is permeable to the laser light, the outlet surface of the laser light. The production of ignition elements is made simpler and cheaper because the laser light does not have to be coupled by way of an optical system or a light guide. Apart from this, transmission losses and coupling losses are avoided.
In an advantageous development of the invention, the portion of the housing of the laser diode that faces the explosive to be ignited and is permeable to laser light can be coated with a substance which improves the absorption of the laser light, in particular the infrared portion. As a result of this, the action of the laser light is intensified. Carbon or black metal oxides, such as copper oxide, iron oxide and manganese oxide for example, absorb the infrared light particularly well.
In another development of the invention, the substances which improve the absorption of the laser light can be added to the explosive to be ignited itself. A prerequisite is that the purpose-specific action of the explosive is not impaired by the addition. As a result of the addition, a separate working step for coating the laser diode with the absorption material becomes unnecessary.
Moreover, the laser diode can be embedded in the explosive to be ignited, in which case it is advantageous if its electrical connections are exposed. A comparatively large surface is available for the introduction of the energy required for ignition. In the case of an embedded laser diode.
In a further development of the invention, the explosive to be ignited and the laser diode can be surrounded by a common housing. As a result of this, particularly in the case of primers, the explosive and the laser diode as ignition device can be put together in a one-piece component having small dimensions.
Embodiments in which the explosive and the laser diode are put together in a common housing are suitable, in particular, for gas generators, as used, for example, in air-bags or in belt tighteners.
REFERENCES:
patent: 4660472 (1987-04-01), Stevens
patent: 5204490 (1993-04-01), Soltz et al.
patent: 5206455 (1993-04-01), Williams et al.
patent: 5212339 (1993-05-01), Piltch
patent: 5660413 (1997-08-01), Bergerson et al.
patent: 5756924 (1998-05-01), Early
patent: 6374740 (2002-04-01), Moulard
Kern Heinz
Kordel Gerhard
Dynamit Nobel GmbH Explosivstoff-und Systemtechnik
Nelson Peter A.
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