DE1031687B - Electric capacitor igniter - Google Patents

Description

GERMAN

The invention relates to an electric capacitor igniter for twist projectiles which are charged after they have been fired.

It is known to have the electrical memory required as a memory for ignition in such igniters To charge energy serving capacitor with the help of an electromagnetic generator, the relative rotational movement between rotor and stator due to the inertia of the rotor compared to the Launching rotation of the projectile is achieved. Usually an alternator is used used and the generated alternating current by rectification into the charging direct current for the Transformed storage capacitor. It is also known to occur when firing Axial thrust is a relative movement between an induction coil and an * acting on it To effect magnets, the induced current surge causing the storage capacitor charges.

The main advantage of all such detonators is that accidental ignition of the projectile before being fired by impacts and the like is excluded, since energy is only generated afterwards takes place in the detonator. All these detonators working with electromagnetic means have the disadvantage that the manufacture and adjustment of the individual parts, especially the achievement of a sufficient Induction effect decisive air gap between the permeated by the magnetic flux Iron sheets and the like, are difficult and therefore expensive.

In contrast, according to the invention, an electric Proposed capacitor igniter, which is characterized in that the charging of the storage capacitor occurs electrostatically through charge separation. Instead of the well-known generation of the Electrostatic energy generation is provided for ignition energy on the electromagnetic path. The advantage achieved in this way consists primarily in the simplicity and robustness of the individual parts and their method of manufacture.

Preferably, an igniter according to the invention is characterized in that the carrier for the electrostatic Charge is a powder that, when fired, passes through narrow channels in the detonator, the insulated walls of which are connected to one pole of the energy store, flows out. The charge separation takes place thus preferably by rubbing the powder on the wall of the channels, whereby the powder particles carry the charges from one pole of the energy storage device to the other. In In this case, the possibility of using the powder used as the charge carrier in the simplest way, for example

Applicant: Aktiebolaget Bofors, Bofors (Sweden)

Representative: Dipl.-Chem. Dr. W. Koch, Hamburg 4,

and Dr.-Ing. R. Glawe, Munich 27, Cuvilliesstr. 16,

Patent attorneys

Johannes Hermann Schuler, Unterlüß (district of Celle), and Dr. Ulrich Theile, Steinhorst via Celle,

have been named as inventors

wisely by the centrifugal forces that occur, air pressure differences and the like.

According to a further feature of the invention, the outlets of the channels are through centrifugal or inert lead plugs or the like completed. Above all, this reduces the effects of air humidity, which adversely affects the charge separation, ver. avoided, while on the other hand a short delay of the energy generation process compared to the launch time is possible.

Optionally, a detonator according to the invention is also characterized in that the band is one rotating electrostatic generator forms the carrier for the electrostatic charges.

The electrical energy collected in the storage capacitor in the manner described is then used in used in a known way for ignition on impact, after time, etc.

In the drawing, an embodiment of an igniter according to the invention is illustrated by way of example.

Fig. 1 shows a projectile with a detonator in section; Figure 2 is a circuit diagram for the igniter.

A head with parts 2 and 3 is screwed into a sleeve 1 at the front end. Between the head and a cutting disk 4 is provided for the sleeve 1. The case contains two explosive charges 5 and 6. In Two electrical capacitors 7 and 8 and a resistor 9 are arranged on the head. In the cavity A discharge tube 10 is provided in the capacitor 7. Outside the capacitor 7 is the Main part 2 formed in such a way that an annular cavity 11 is formed. Of this Cavity lead backward channels 12 to the outside of the main part 2. The channels are

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lined inside with thin metal tubes 13 which are completely isolated from part 2. The outlets the channels are sealed with plugs 14 made of lead or the like. The channels 12 and the annular Cavity 11 are filled with a powder 15, which od of glass powder, rosin or the like. Can consist. Behind the capacitor 7 is an electric squib 16 arranged, behind which a detonation trigger 17 is provided. At the top of the main part 3 is an electrical contact 18 is arranged, which is closed under the action of external forces.

The parts described above are connected as shown in FIG. Thus, one pole of the capacitor 7 is connected to the metal tubes 13 and the other pole is measured, ie connected to one of the parts 2 and 3, one or both of which can be made of electrically conductive material. The series circuit of the capacitor 8 and the resistor 9 is arranged in parallel with the capacitor 7. At the connection between the condensate a ₀ sator 8 and the resistor 9 is connected to the series circuit of the discharge tube 10 and the electric squib. The electrical contact 18 lies parallel to the discharge tube 10.

The detonator described works as follows: It is believed to be in a projectile that has just been fired. When the projectile has reached its full speed of rotation, the channels 12 are opened, as the plug 14 through centrifugal force can be thrown out. The powder 15 then emerges from the cavity 11 and the channels 12 ejected through the channels. The powder particles then take up due to the friction against the tubes 13 charges away from one layer of the capacitor 7. These charges are then brought completely or partially to the other layer of the capacitor 7, which is possible in that the channels 12 are directed obliquely backwards and the powder particles after they leave the channels 12 come into contact with the part 2 for the charge delivery, which is with the other surface of the Capacitor 7 is connected. The capacitor 7 is charged by this movement of the powder particles. When this capacitor has received the available energy, it in turn charges the capacitor 8 on. The speed at which the capacitor 8 is charged depends on the size of the Capacitors 7 and 8 and the resistor 9. When the voltage on capacitor 8 is one of the If the ignition voltage for the discharge tube 10 has reached the corresponding value, the capacitor 8 via the branch containing the discharge tube 10 and the electric squib 16. Through the Discharge, the detonation trigger 17 is detonated by the electric squib 16. However, if the projectile hits an obstacle before this discharge voltage is reached, the discharge tube 10 is closed by the electrical contact 18. shorted. This short-circuiting directly causes the capacitor 8 over the electric squib 16 discharges. When this discharge occurs, the squib 16 releases the detonation trigger 17 off.

In contrast to the arrangement described, in which the detonator is arranged in the tip of the projectile is, it is of course also possible to arrange the igniter according to the invention in the rear part of a sleeve.

Claims (4)

Patent claims: 1. Electric capacitor fuse for twist projectiles, which is charged after firing happens, characterized in that the charging of the storage capacitor takes place by charge separation. 2. Detonator according to claim 1, characterized in that the carrier for the charge is a powder which when fired through narrow channels in the Fuzes, the insulated walls of which are connected to one pole of the energy storage device, flows out. 3. igniter according to claim 1 and 2, characterized in that the outlets of the channels through Centrifugal or persistent lead plugs or the like. Are closed. 4. igniter according to claim 1, characterized in that the tape of a rotating electrostatic Generator forms the carrier for the charge. Considered publications:
German patent specifications No. 304 254, 486 942, 476 379, 487 039, 553 024, 581 491, 712 083; Excerpt from S 151328 XI / 72i in German Patent Applications, Vol. 22; Swiss Patent No. 217 801; : French patent specification No. 865 507. 1 sheet of drawings © 809 52WS8 5.58