CH643056A5 - ELECTRIC IGNITION DEVICE. - Google Patents

Description

The present invention relates to an electrical ignition. The straight parts of the recess are expedient

Device consisting of an electrically conductive right angle to each other according to claim 4.

arranges housing with a primer, one protruding into the housing. This further development also facilitates the manufac

and from this housing electrically insulated pole pin and with 30 ling of the recess, since these only consist of two vertical systems

a metal layer, which consists of the pole pin and the housing of parallel straight lines.

Connects electrically conductive, and one side on the pole- In the following, embodiments of the invention and the insulation layer surrounding the pole pin and are explained in more detail.

the other side of which is on the primer. It shows:

For the detonation of explosives, especially in explosives, a longitudinal section through the bodies according to the invention, such as projectiles, rockets etc., has hitherto been used, among others. electrical ignition device with an electrically conductive electrical detonators, so-called squibs used. Metal layer,

In principle, these consist of an approximately 0.5 to 1.0 cm large, FIG. 2 a plan view of the electrically conductive metal, electrically conductive housing, a layer protruding therein, with a recess in the electrically conductive, from the housing by means of an insulation-separated pole pin 40 metal layer is formed as a spiral, and and an electrical connection connecting the pole pin and the housing. FIG. 3 is a plan view of another, for example, electrically conductive metallic connection with a relatively conductive metal layer, the recess of the electrical Inherently low resistance of tri-conductive metal layer made of spirally arranged about 1 to 20 ohms. So far, straight parts have existed as metallic connectors.

Fig. 1 shows an ignition device, which uses a so-called gap igniter with high resistance, which is pressed onto a three-part, electrically conductive housing 2, one into the spark generator. Such metal connector housing 2, which contains an insulation layer 5 and contains an insulation layer 5 which is separated from the housing 2 by bonds (ignition or glow wires or split igniters). An ignition charge 4 is arranged in the melted state under the current surge which occurs when the housing 2 impacts. Between the Isola explosive device in a manner known per se through the protective layer 5 and the primer 4, a metal layer 3, said metal compound of the primer, is conducted, with order. The pole pin 1 is penetrated by the insulation layer 5 from the spark and which is electrically isolated directly on the metallic housing 2. However, it is ignited with the metal primer located. layer 3 electrically connected, this metal layer 3 in

Common explosives such as e.g. «Ni- the edge zones with the electrically conductive housing 2 ver-tro-Penta» (nitropentaerythritol) or combined primers, 55bund. The metal layer 3 has a recess 6,

which consists of a so-called primary fuse, e.g. Silver azide, which is however not visible in FIG. 1. The electrical and a secondary igniter, e.g. Nitro penta. In this example, the ignition device is cylindrical

the combined primers are preferred. forms.

The sensitivity of such metal threads and split guards are the same in all drawings with the same

which meets the current requirements of ammunition and 60 train numbers.

Explosives industry no longer. The fineness should also be shown in FIG.

cher metal connections due to increasing insecurity tall layer 3 of Fig. 1. The course of the recess 6 is in and dangerous limits. In addition, this example can be designed as a spiral. Between the ne-such detonators with the ends of this spiral lying exactly next to one another which is required today, there is an ignition strip

reproduce. 65 fen 7 provided. In the middle is the contact surface of the pole

The object of the invention is to draw an electrical pencil 1. The outline of the insulating ash ignition device of the type mentioned above to create layer 5 is shown in broken lines. The electrically conductive housing 2 fen, which also meets the requirements of modern ammunition in this example, has a groove 8. This groove 8 in the

3,643,056

tallschicht 3 provides a customary opening for venting the pore made of a suitable alloy

Ignition charge 4 represents. The ignition strip 7 thus forms in the glass.

tallschicht 3 the narrowest point. If the metal layer 3 is advantageously composed of a voltage-generating end 1 on the pole pin 1 and the electrically conductive housing 2, the insulation 5 and the housing edge 2 are connected in high, the current flows between the individual layers of the vacuum-deposited layer , namely from and the housing 2 through the metal layer 3, which melts in its an adhesive layer of the order of 0.015 µm ignition strips, whereby a spark is produced and nickel-chromium alloy and a conductive layer of sizes - the primer 4 is ignited. Order of 0.15 µm gold. It is also possible to dispense with the conductive layer and the adhesive layer correspondingly thicker. According to FIG. 3, the spiral-like recess 6 is made of OK. The recess 6 surrounds the end of the pole pin straight parts, which are arranged at right angles to one another and is advantageously reversed approximately in the middle. This shape facilitates the small dimensions between the pole pin 1 and the housing 2. The recess production of the recess 6, where only 6 is expediently 20 to 100 (im, preferably 50 | in two parallel to one another and perpendicular to each other wide 6 sets of straight lines can be used between the ends of the recess 6. The mode of operation 15 carries approximately 20 to 100 (im, advantageously approximately 40 (im. The solution according to FIG. 3 corresponds to the length with reference to FIG. 2) that the two ends of the recess 6 run next to one another, as previously described, is expediently 100 to 1000 μm, the ignition strip 7 is preferably about 500 to the requirements of the ignition (the recess 6 is expediently adapted. It has one Resistance between about 1 photolytographically applied to the metal layer. They ge and 300 ohms. The pole pin 1 and the electrically conductive 20 equips the dimensions of the ignition strip s 7 the special housing preferably consists of a high-quality Nik requirements to adapt to practice and is also very good kel-cobalt-iron alloy and the insulation can be appropriately reproduced.

C.

2 sheets of drawings

Claims (4)

643 056 2nd PATENT CLAIMS and explosives industry, which can be 1. Electrical ignition device, consisting of such small manufacturing tolerances can fabricate an electrically conductive housing with an ignition set, which can withstand extremely high accelerations and can protrude from the housing and can be electrical from this housing. Insulated pole pin and with a metal layer, which 5 The above-mentioned object is achieved in that the pole pin and the housing connects in an electrically conductive manner, and the metal layer surrounding the entry point of the pole pin into the other side of the pole pin and surrounding the pole pin - Insulating recess surrounding the metal layer is spirally attached to the insulation layer and its other side on the ignition and that lies between the adjacent lousing, characterized in that in the metal ends of the recess an ignition strip of the metal layer (3) is the entry point of the pole pin (1) is provided in the layer as an ignition resistor. The insulating layer (6) surrounding the spiral layer (3) The advantage of the invention lies in the fact that the electrical device is attached and that between the ignition device next to each other sufficiently sensitive and yet trailing ends of the recess (6), an ignition strip (7) is designed to be drive-safe can, wherein it is provided in small Toder metal layer (3) as an ignition resistor. tolerance limits can be established and also at high acceleration 2. The electrical ignition device according to claim 1, because the large mechanical strength means that the recess (6) cannot fail as a spist. rale runs. According to claim 2, the recess runs as a spiral. 3. Electrical ignition device according to claim 1, because this is a suitable variant, since the spacings of the metal are characterized by the fact that the recess (6) comprises an abrading part consisting essentially of the same layer inside the spiral, has a spiral course. Show 20 levels from the housing. 4. Electrical ignition device according to claim 3, da- According to another variant according to claim 3, which is characterized in that the straight parts of the recess recess, a, consisting of straight parts, spiral (6) are arranged at right angles to each other. course. The advantage of this solution is that the manufacturers 25 Position of the recess is simplified by using the said straight parts.