DE1015349B - Electric igniter for projectiles - Google Patents

Description

GERMAN

As is well known, it is the case with certain explosive projectiles advantageous to let the explosion take place as soon as possible after the impact. To solve this problem, it is already known to have an electric detonator in the ignition circuit Switchable capacitor to use which is created by one of a magnetic flux in a magnetic Circuit through which the coil is charged, whereby the magnetic circuit has a core, which moves relative to the other parts of the magnetic circuit when the projectile is fired, to cause a change in the magnetic field penetrating the coil and thereby in this generates a voltage to charge the capacitor.

In electrical detonators of this type, safety devices are known that the ignition of the Prevent projectile for a certain time after the projectile has been fired in order to ensure a muzzle safety for the gun. These safeguards are generally very heavy and require so much space that they cannot be accommodated at all in a small and light projectile can be.

The invention relates to an electric igniter of the type described above which does not have these disadvantages and its essence consists in the fact that the core in the magnetic circuit has a pin to the Locking a clockwork delay device carries the switching on of the capacitor in the Causes the projectile's ignition circuit.

The arrangement can be made so that the igniter contains a closing contact that the The capacitor is connected in parallel to the terminals of the impact contact to prevent the discharge of the Capacitor without explosion of the projectile if the impact contact accidentally closes prematurely to cause and the opening of the closing contact by the delay mechanism steer.

The drawing shows two embodiments and modifications of one of the examples The object of the invention forming the electric fuse for projectiles.

Fig. 1 is a plan view of the first embodiment with the top removed;

Fig. 2 is a vertical section on the line H-II of Fig. 1;

Fig. 3 shows a detail of the cap;

4 shows schematically the electrical circuit of the device according to FIGS. 1 to 3;

Fig. 5 illustrates a modification of this electrical circuit;

Fig. 6 shows an electric detonator in section;

Electric detonator for projectiles

Applicant:
Motha Treuinstitut, Vaduz (Liechtenstein)

Representative: Dr.-Ing. F. Mayer, patent attorney,
Berlin-Dahlem, Hüttenweg 15

Claimed priority:
Switzerland from August 31, 1953 and January 5, 1954

Fig. 7 is a plan view corresponding to Fig. 1 of the second embodiment;

Figure 8 is a vertical section through line VIII-VIII of Figure 7;
Fig. 9 shows a detail of Fig. 7 in the course of the operation;

Fig. 10 schematically shows the electrical circuit of the second embodiment;

Fig. 11 illustrates a modification of this electrical circuit.

In Fig. 1 and 2, a capacitor 1 is in a housing 2 with the intended for its discharge Generator included. At the bottom of the housing 2 there is a wall 3, which is one in the middle front on a second wall 5 to directed pipe socket 4 carries. Located between walls 3 and 5 a spool 6 wound on a carrier 7.

Two permanent magnets 8 and 9, each of which has the shape of a ring segment concentric to coil 6 are arranged on both sides and aim to generate a magnetic field that has the shape of a coil having surrounding annular bead-shaped shell. In Fig. 2, the polarities of the front ends are the Magnets 8 and 9 similar, e.g. B. South, while those of the inner ends of the magnets from opposite Polarity (north). The generated magnetic field penetrates the front wall 5 in the direction onto the center of the bobbin, then a movable cylindrical core 10, the pipe socket 4 and turns then back through the rear wall 3 to the magnets 8 and 9.

The movable core 10 can be in a central hole in the front wall 5 and in the tube

709 660/82

Move trim 4 of wall 3. A copper plate 11 has a bore in its central part, through which a pin 13 attached to the core 10 passes. This pin 13 is near the core

10 provided with a thread on which a nut 12 for fastening the copper plate 11 is screwed on. The two ends of this plate

11 are based on the edge of the central hole of the wall 5, so that an untimely movement of the Core 10 in the direction of the bottom of the housing 2 too is prevented.

Basically, the device is stored inside a projectile in such a way that the axis of the cylindrical core 10 is arranged parallel to the pipe axis and such that the persistence of the core 10 tends to move backwards towards the bottom of the housing 2. From firing the Shot on, the projectile acceleration is sufficient that the inertia exerted on the core 10 bends the plate 11 and warps the core 10. pushes so that it completely enters the pipe socket 4. This shift attracts an increase in the Resistance of the magnetic circuit between the nozzle 4 and the wall 5 according to it, such that the strength of the magnetic field surrounding the coil 6 is greatly reduced, creating a voltage in the latter induced. This voltage allows the capacitor 1 to be charged; however, it is to avoid that the latter discharges into the coil 6 immediately thereafter, the connection between them is necessary to interrupt both elements by opening a contact 14, as shown in Fig. 4, as soon as the Discharge of the capacitor is effected.

This contact is formed by a leaf spring 14 attached to an insulating piece 15, the End is supported against the pin 13 of the core 10. One end 16 of the coil 6 is directly connected to a Terminal of the capacitor 1 connected, while the other end 17 of the coil is electrically connected to the leaf spring 14, which is in contact with the ground by means of the pin 13. The other capacitor terminal is connected to the ground by a wire 18 by means of a screw 19, which is the same Time to attach the insulating piece 15 on the wall 5 is used. Since after firing the If the core 10 is completely in the pipe socket 4, the end of the leaf spring 14 is not more in contact with the screw on thread 13, which shifts at the same time as the core 10. The interruption of the electrical contact between the coil 6 and the capacitor 1 is thus obtained, as soon as the latter is charged. It should be noted that after the core 10 has been displaced, the ends of the Grip plate 11 behind the front plate against the edge of its central hole to prevent that the core 10 resume its initial position and an untimely unloading of the Capacitor 1 in the coil 6 can cause.

In the case of projectiles, a pre-pipe safety device is almost always provided, which is intended to prevent the To prevent projectiles from accidental impact or impact immediately after leaving the gun barrel. In the case of the device described, this fuse is recognizable by means of a device shown in FIG Delay mechanism received. This mechanism contains a tooth segment 20 made of insulating material, the pivotable at 21 and the action of a spring 22 is subjected. This segment 20 is intended to be a to set pivotable mass 23 by means of a gear set 24, 25 in rotation. The whole mechanism is on a plate 32 fixed on the front surface of the wall 5 by two screws 33 and 34 stored. A contact sheet 26 in the form of an angle is on this segment 20 made of insulating material with a attached to its legs and electrically connected to the terminal of the capacitor 1 which is not connected to ground. Its other thigh is vertical to segment 20 and approaching a lid 28. When segment 20 makes a clockwise rotation (Fig. 1) performs under the action of its spring 22, is the end of the leg perpendicular to it of the sheet 26 intended to be in contact with a cover 28 which closes off the housing 2 Sheet 27 to come. Before the shot is fired, this rotation of the sector 20 is through a pin 29 attached to the core 10 prevents. When the core is inside the pipe socket 4 has pushed, the displacement of the pin 29 frees the segment 20, which under the action of the spring 22 can pivot, its angular speed being braked by the inertial mass 23. That Contact sheet 27 then receives the voltage of the capacitor 1, and the ignition of the projectile charge can be done with the help of an electric detonator.

Fig. 6 shows in section an electrical primer. This has a shell 36 in which a Primer 37 is located and which is closed by a plug 38. Two conductors 30 and 31 are between The sleeve and plug are clamped and one end is immersed in the primer. The voltage of the capacitor 1 is the conductors 30 and 31, for example with the aid of a (not shown) time or Impact contactor supplied at the moment where the explosion is to take place, such that a spark jumps between the ends of the conductors 30 and 31 and so ignites the squib 37.

The regulation of the upstream pipe safety, d. H. currently. during the the projectile after firing the shot can not burst, by changing the mass of the wheel 23 or by acting on the Force of the spring 22 can be regulated. You can also change the dimensions of the plate 11 Determine the amount of persistence needed to keep the generator firing the Let the shot take effect.

Fig. 5 shows a modification of the electrical circuit of the device in which a rectifier 35 is switched on between the capacitor 1 and the coil 6 to replace the contact 14. Of the Core 10 can also be formed directly by a permanent magnet, in which case the magnets 8 and 9 are to be omitted and replaced by a socket made of ferromagnetic material, the surrounds the coil 6 and closes the magnetic circuit to the outside between the walls 5 and 3. The delay mechanism shown in Fig. 1 can be various in a well known manner be designed, e.g. B. by omitting the spring 22, one subject to the centrifugal force to replace it Mass can be used in the case where the projectiles are fired with a twist. Of the movable core can have a central recess to reduce its weight.

The device shown in FIGS. 7 to 9 differs from that of FIGS. 1 to 3 only in terms of the mechanism the upstream pipe safety.

In this second embodiment, the pipe safety device again contains a toothed segment 20 Insulating material that can be pivoted in 21 and the effect

a spring 22 is subjected. This segment is 20 intended to set a pivotable mass 23 by means of a gear set 24, 25 in rotation. This whole mechanism is fixed on one on the front face of wall 5 by two screws 33/34 Plate stored.

The segment 20 carries a metal piece 40 that is electrically is connected to the terminal of the capacitor 1 which is not connected to ground. This piece has 40 two fingers 41 and 42 directed perpendicularly towards segment 20. Finger 42 is electrically connected connected to a conductor which is formed by a spring 43 which is wound around the pin 21 and one end of which is bent and engages in a transverse slot of the latter. This end is with a sheet 44 housed in the lid 28 in contact. This sheet 44 is determined as in FIG. 10 indicated, with a terminal of an impact contactor formed by a firing pin 45 to be connected.

Before the shot is fired, a capacitor terminal is connected to ground, while the the other terminal is connected to the impact contactor 45 by means of the pieces 40, 43 and 44. if the segment 20 accomplished a clockwise rotation under the action of its spring 22, there is the electrical connection between the capacitor 1 and the terminal of the contactor 45 thanks to the elasticity of the spring 43, the end of which is in contact with the finger 42 until the moment where it is retained by a pin 46 (Fig. 9), remains. The segment 20 continues its shift continues under the action of the spring 22 until the finger 41 is accommodated in the cover 28 to the stop against one Ladder 27 is coming. This conductor 27 then receives the voltage of the capacitor 1, and the The projectile charge can be ignited, for example, by an electric primer of the type shown in FIG. 6 Art can be achieved that includes two electrodes 30 and 31, between which as a result of the closure of the Contactor 45 can jump a spark at the moment of impact.

The regulation of the upstream pipe safety, d. H. the time during which the projectile was fired after the round was fired can not burst, by changing the mass of the wheel 23 or by acting on the Force of the spring 22 can be regulated.

As can be seen from the electrical diagram of FIG. 10, the charge of the capacitor 1 cannot more are fed to the electric primer if the impact contactor happens to be before End of the duration of the muzzle security is closed. Instead, the capacitor is used in this case 1 shorted and therefore discharged through 40, 43, 44 and 45 before the piece 40 comes into contact with the sheet 27 comes.

FIG. 11 illustrates a simpler electrical schematic that allows the same result as that of FIG. 10. The delay device formed by segment 20 now controls only a single contact 47 which is intended to short-circuit the electrical primer. This contact 47 is closed at the moment of firing of the shot, and remains in this position until the end of the safe separation distance, where it is opened by the segment. This contact could e.g. B. be formed by the elements 40, 42, and 44 shown in FIGS. 7 to 9, in which case the elements and 27 can be omitted. It can be seen that if the contactor 45 is accidentally closed before the opening of the contact 47, the capacitor 1 would be discharged immediately, in such a way that a voltage could not be transmitted between the electrodes 30 and 31 after the opening of the contact 47.

Claims (7)

Patent claims: 1.Electric detonator for projectiles with a capacitor that can be switched into the ignition circuit, the one through which a magnetic flux in a magnetic circuit flows Coil is charged, the magnetic circuit has a core that is opened when fired of the projectile moved relative to the other parts of the magnetic circuit, characterized in that that the core (10) has a pin (29) for locking a clockwork delay device (20 to 25) that switch on the capacitor (1) in the ignition circuit of the Projectile causes. 2. igniter according to claim 1, characterized in that it has a closing contact (40, 43 or 47) that connects the capacitor (1) in parallel to the terminals of the impact contact (45) holds, wherein the opening of the closing contact (40, 43, 47) is controlled by the delay mechanism. 3. igniter according to claims 1 and 2, characterized in that the closing contact (47) is connected so that it short-circuits the electrical detonator (30, 31). 4. igniter according to claims 1 and 2, characterized in that the delay device a second closing contact (40,27) for switching on the capacitor (1) in the Ignition circuit controls after the first make contact (40, 43) that connects the capacitor (1) in parallel to the terminals of the contactor (45) is open. 5. igniter according to claims 1, 2 and 4, characterized in that the delay device a toothed segment (20) made of insulating material, the one with a terminal of the capacitor (1) connected metal contact (40) carries, and an elastic conductor (43) electrically with a Terminal of the impact contact (45) is connected, the conductor (43) in contact with the Metal contact (40) is on during most of the pivoting of the tooth segment (20), and a stop (46) for breaking contact between the conductor (43) and the Metal contact (40) provided shortly before the end of the pivoting of the tooth segment (20) and a second conductor (27) is arranged such that it connects to the metal contact (40) at the end of the Pivoting of the tooth segment (20) can come into contact, which is electrically connected to a terminal of the electrical primer (30, 31) is connected, while the other terminal with the terminal of the impact contact (45) connected to the first conductor (43). 6. igniter according to claim 1, characterized in that the magnetic circuit by two on both sides of the coil (6) arranged disks (3, 5) is formed, which on their outer edge by means of at least one permanent magnet (8,9) are connected to one another, and each disc (3, 5) has a central hole for the core (10) to pass through, and a nozzle (4) the edge of the Hole of at least one (3) of the disks (3,5) extended inward, the connecting piece (4) guiding the core (10). 7. igniter according to claims 1 to 6, characterized in that the core (10) before Firing is secured by a resilient flange (11), which is located on the edge of the middle Hole in the front disc (5) and after the core (10) has fallen back against the edge of the hole. Considered publications: German Patent Specifications Nos. 476 379, 486 903, 942; U.S. Patent No. 2,511,872. 1 sheet of drawings . © 709660/82 8.57