DE2102017A1 - - Google Patents

Description

Va / WJM.

Electric ignition device.

The invention relates to an electric ignition device, for example for use in projectiles, with two electrodes separated from one another by an insulating layer and an electrically conductive pyrotechnic ignition material, which is generated when a voltage is applied between the electrodes is ignited.

The invention aims to provide an ignition device of the type mentioned above, which is inexpensive and suitable for automatic assembly and works satisfactorily.

An ignition device according to the invention is characterized in that the electrodes and the insulating layer nit openings are provided, which when the electromagnets are mounted to lie opposite each other, so that

109832/1127

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an uninterrupted channel through which is open on one side Electrodes and the insulating layer extends while at least at the point of transition between the two electrodes a layer of an electrically conductive ignition material is provided within the channel, which extends from a Electrode extends to the other and a bridge to the insulation at the point of transition around the edge the opening in the insulation. Despite its simplicity works such a device in a particularly reliable 'way, because the distance between the electrodes that the essential parameter for the effect is, can be sustained with great accuracy. The insulating layer can e.g. consist of an oxide layer or a thin insulating film.

The device is suitable for automatic production both with regard to the assembly of the electrodes also with regard to the introduction of the electrically conductive ignition compound.

The channel can be dimensioned in such a way that it also serves as a metering device for the electrically conductive ignition material, the ignition material being supplied in powder form to the channel, which is then completely filled with powder material, after which the ignition material is filled with the aid of a suitable round tool is pressed against the bottom of the channel.

Some embodiments of the invention are shown in the drawing and are described in more detail below

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Show it:

Fig. 1 in section a first embodiment of a electrical ignition device according to the invention, and

2 shows, in section, a preferred form of guidance the ignition device according to the invention.

In Fig. 1, 1 denotes a first electrode, 2 a second electrode with a connecting pin 3 »and k an insulating layer which lies between the flat contact surfaces of the electrodes. The electrodes are held together by a% Ausspnumliül] ung 5, which encloses the two electrodes and is connected to the first electrode. 1 An insulating ^«1 washer 6 holds the second electrode 2 in a centered position within dor envelope, so that the design formed by four electrode is an air gap 7 between the cover 5 and the electrode 2 on the whole circumference along.

The electrodes and the insulating layer are with

central openings provided, which have the same dimensions and are opposite one another, so that an uninterrupted Channel 8 is formed. In the case of the first electrode, the opening 8 'extends through the entire electrode, while in the case of the second electrode the opening 8 "extends into the electrode over a certain distance (from the contact surface up to the second electrode) so that the mentioned channel is open on one side and on the other side is closed. An electrically conductive pyrotechnic ignition mass 9, which is dome-shaped in this example, is used

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pressed into channel 8. The firing mass 9 »its largest Has thickness at the bottom of the mentioned channel and whose thickness decreases in the direction of the opening, extends over the transition between the electrodes and there forms a bridge to the insulation. If necessary, a Non-conductive ignition compound 10, which fills the entire channel, can be attached outside the electrically conductive ignition compound.

When a voltage is applied between the electrodes, a current is drawn through the electrically conductive ignition compound flow that will ignite this mass. Because the layer of conductive ignition material is thin at the point of transition, the current in the material will be high and ignition will take place immediately.

In the manufacture of the igniter may or may not be from pre-drilled pieces attached to one another pre-drilled pieces are assumed, in the latter case after assembly in a single processing step an opening is made in both the electrodes and the insulation. A disadvantage of the latter method is that burrs or debris can be left behind, creating an undesirable short circuit between the electrodes can be brought about. The electrically conductive ignition compound is inserted into the channel after assembly and thereby in brought the desired shape, that it with the help of a pressure tool with a rounded end against the bottom of the channel is pressed. If necessary, the room will be outside

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the electrically conductive ignition compound with a filled with non-conductive ignition material, which fills the entire channel.

The electrically conductive ignition material can consist, for example, of a semiconducting pyrotechnic material which is made conductive in that graphite is pressed into it. The insulation between the electrodes can either consist of a sheet of an electrically non-conductive material λ

or consist of an oxide layer on one or both electrodes.

The channel is preferably sized to deliver the correct amount of electrically conductive ignition material, if this material is introduced into the canal in a powdery state, so that the mentioned canal is completely covered the material is filled out. A special dosing device for the ignition material is superfluous. When inserting The powdery ignition material is initially added to the ignition material

Poured into the channel, after which superfluous material is removed is removed; Finally, the material is then pressed into the channel with the aid of a tool with a rounded end .

Fig. 2 shows a preferred embodiment of the ignition device according to the invention. In addition to the ignition compound, the device according to FIG. 2 contains only three parts: a first electrode 11, a second electrode 12 with a connecting pin 13 and a thin plastic film Ik. The first electrode 11 has a protruding edge 15 which is connected to the bottom part

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the electrode forms a whole and which, before assembly, has the shape of a cylindrical envelope, as indicated in FIG. 2 with dashed lines. The space formed within the edge 15 is dimensioned in such a way that the second electrode 12 can be received therein. The plastic film 14 originally has a flat shape and is considerably larger than the surface area of the space formed within the edge 15. The two electrodes are preferably provided with bores before assembly, while the film is also provided with a central opening. The assembly is then carried out in such a way that after the arrangement of the film between the electrodes, the second electrode 12 is introduced into the space within the edge 15 of the first electrode 11; During this processing step, the three parts are always held in a centered position with the aid of a tool which is inserted through the openings in the first electrode and in the insulation into the opening of the second electrode 12. When the second electrode is fully inserted into the space mentioned and brought into contact with the top of the first electrode, the edge 15 is deformed by being pressed against the second electrode, the lower part of this electrode being enclosed by this edge will. During the deformation, the plastic film on the top of the second electrode is bent, which ensures good mutual insulation of the electrodes. The film can have a thickness of 50 μm. When a greater thickness of the insulating layer

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is desired between the electrodes, one or more additional layers made of plastic film between be attached to the flat contact surfaces of the electrodes.

The latter embodiment, apart from the simple design and assembly, has the advantage that the two electrodes are very close to one another because they are only separated from one another by the plastic film, which can have a thickness of 50 μm. This creates cold flow of the A

Material and accidental loosening of the two electrodes with respect to one another during long storage periods and under difficult conditions that such a device can be exposed, avoided.

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original

Claims (4)

Z.PHN. 4824. - 8 PATENT CLAIMS. 1. / Electric ignition device e.g. for use in Shot, with two electrodes separated by an insulating layer and an electrically conductive pyrotechnic one Ignition material, which can be ignited when a voltage is applied between the electrodes, characterized in that: that the electrodes and the insulating layer are provided with openings that when the electrode is mounted are opposite to each other, so that an uninterrupted channel open on one side is formed, which extends through extending the electrodes and the insulation, and that at least at the point of the junction between the electrodes a layer of ignition compound is provided within the channel and extends from one electrode to the other and at the point of transition around the edge of the opening in the insulating layer, a bridge to the insulation forms. 2. Electrical ignition device according to claim 1, wherein the opening in one of the electrodes has a certain Distance into the electrode is sufficient (from the contact surface counted to the opposite electrode), characterized in that the electrically conductive ignition compound is in Form of a dome-shaped body covering the bottom of the channel is mounted in the channel, which body is extends over the junction with the opposite electrode, the thickness of the ignition material layer in the direction of decreases to the open end of the channel. 109837/11? 7 INSPECTED Z.PHN. 4824, 3. An ignition device according to claim 1 or 2, characterized in that the channel is sized ₁ is that it can serve as a dosing apparatus for the electrically conductive ignition material when this material is introduced in a powdery state into the channel. 4. Ignition device according to one of claims 1 to 3 »characterized in that the device mentioned next to" the ignition compound contains three parts: a first electrode with a protruding edge, a second electrode placed in the space within the mentioned edge and a thin insulating foil arranged between the two electrodes, the mentioned electrodes being held together by the mentioned edge after the Insertion of the electrodes on the inside is deformed so that this edge encloses the second electrode, and the mentioned insulating material film, which originally has a flat shape, is significantly larger than the area of the mentioned space containing the second Λ electrode, so that the mentioned Foil serves as an insulating layer between the flat contact surfaces of the electrodes and also as insulation between the edge of the first electrode, which is deformed on the inside, and the second electrode. AO Blank page