DE2009533A1 - Electric bridge igniter - Google Patents

Description

Electric bridge igniter The invention relates to an electric one Bridge igniter, whose thermally sensitive ignition charge is made by heating a bridge wire can be ignited by means of a short electrical current pulse.

Bridge ignition means have a thin, electrically conductive ignition element Wire on, which, by means of an electrical impulse, heats up the adjacent thermal sensitive primer ignites. i are in the military sector often only small amounts of electrical energy are available to ignite the primer.

The wire must therefore be extremely thin. In addition, the electric Resistance must be high so that the electrical energy is mainly heating up the bridge wire and not the ignition lead wires. A high electric Resistance of the ignition wire is often required to adapt to the generator, namely when using piezoelectric generators, which have a high voltage but are only able to generate small currents. Because of this, not only will very thin bridge wires, but also mostly a high electrical wire material Resistance used, e.g. 3. made of chrome-nickel, which is difficult to obtain in the necessary Delicacy can be drawn or further processed.

The assembly of thin wires in the ignition means becomes all the more difficult and more complex, the thinner the wire to be used. Bo can be wires of only 3 µm #, the difficulty processing and the committee are very @ oh.

The object of the invention is to provide this @ ac @@ sile @u umqec @, @. @. a Jumper wire easily machinable diameter, do @@@ electrical resistors and low heat dissipation to s @@ monkeys.

According to the invention, a fiber of an electrical one serves as a bridge wire non-conductive material, which is covered with an electrically conductive The material is bes @@ i @@ tet.

To produce this bridge wire, you can use a @l @@ - or @@@@@ - harz @ aser @@ @uer gea @@@@@, @@ @ ampfen, dusting, spraying on their surface or another be @@@ te, @@@@@@ galvanic method with a thin conductive coating compla @@@@@ and then possibly artificially aged, e.g. a @ empert.

Such a coated thread or wire can be in sequence of its larger diameter is much easier @@@@@@ to use and process than the one for this previously used thin wires @@@ solid material.

An application example is shown in the softening.

There show: FIG. 1 a longitudinal section through an electrical bridge igniter and FIG. 2 is a plan view of an insulating disk with a bridge ignition wire according to the invention.

According to Fig. 1, a double-walled capsule 1, 2 is just by means of a Isolierringes 5 a contact nipple 4 attached, which on an insulating disc 5 rests. This insulating washer 5 includes a charge of the ignition agent, consisting from an ignition charge @ and an amplifier set @, both of them are filled into a measuring sleeve 8 one above the other. In the capsule 1, 2, which after is open at the bottom and at the top, a film @ is inserted as the bottom closure, which at Ignition of the ignition means 6, 7 bygekn @@ kt @ire. as FIGS. 1 and 2 illustrate, a wire 10 is attached to the insulating material disk 5 by means of conductive lacquer drops 11, 12, namely attached to the bridge ignition wire according to the invention. The conductive lacquer dots 11, 12 at the end of the wire guided through an inner hole 1 acr @@ cheibe @ 10 serve as contact connections on the contact nipple 4 or on the metal sleeve @. Furthermore the ineinalderge @@@ ebe @ en metal sleeves 1, - and 8 from the contact nipple @ are through the insulating ring electrically isolated.

As already mentioned at the beginning, a self serves as wire 1 @ non-conductive filamentary support, made of plastic or glass with a diameter of about 9 µm, the surface of which (in the case of glass) is etched with hydrofluoric acid, for example and then with a layer of silver, chromium-nickel, selenium or the like in a thickness until about 1 µm is vaporized or sprayed. The wire 10 pretreated in this way is optionally then subjected to a heat treatment. With a fiber diameter of 9 µm, a layer thickness of 0.25 µm corresponds to the thickness of an all-metal wire of 3 µm.

It has been shown that a bridge ignition wire 10 according to the invention can not only be fixed in the manner described with conductive varnish, but also by Crimping or spot welding securely connected to the electrodes of the pole body can be.

Claims (3)

Claims: 1. Electrical bridge igniter, its thermal sensitive primer by heating a bridge wire with a short one electrical current pulse is ignitable, characterized in that as a bridge wire (10) a fiber of an electrically non-conductive material is used, which with a Covering is coated from an electrically conductive material. . Method for producing a bridge wire according to claim 1, characterized in that a fiber made of glass or a plastic on its surface pickled or etched, by vapor deposition, sputtering or spraying with a conductive Covering coated and then artificially aged, in particular tempered. 3. Electrical bridge igniter according to claim 1, with a bridge wire, manufactured according to claim 2, characterized in that the bridge wire (10) by means of Conductive lacquer (11, 12) attached to a carrier (5) and connected to the electrodes of the ignition capsule (@; 8) is conductively connected.